Grocery transport packaging system

ABSTRACT

A grocery transport system comprising a storage facility (600) for goods; the storage facility comprising one or several storage rooms having a controlled environment in that the temperature and the relative humidity of the air in the storage room is controlled so that it is kept within certain predetermined ranges; wherein the goods comprises a plurality of different types of goods sorted into different temperature ranges (TI, TIl, TIll, TIV), each type of goods being stored in a corresponding storage room (650TI, 650TII, 650TIII, 650TIV) having a temperature in accordance with the corresponding goods temperature range (TI, TIl, TIll, TIV); a loading facility for enabling chilled or frozen goods is to be packed into closable and sealable containers (20); said loading facility comprising a plurality of said closable and sealable containers (20) for use in the distribution of said chilled or frozen goods in an air atmosphere environment; a delivery vehicle for transporting said closable and sealable containers (20), when loaded with a predetermined amount of chilled or frozen goods, to a delivery destination.

TECHNICAL FIELD OF THE INVENTION

The present application relates to a container for transporting chilledor frozen goods. The present application also relates to a collapsiblehandle-carryable grocery carrier bag. It also relates to a method forproviding a collapsible carrier bag, and to a method for providing acarrier bag, and to a method of delivering groceries. The presentapplication also relates to a handle-carryable grocery carrier bagpackage It also relates to a kit of parts including a carrier bag, andto a grocery transport system.

DESCRIPTION OF RELATED ART

Grocery stores are retail stores that primarily sells food. A piece ofgrocery, or a food item, in a modern grocery store may be provided in aseparate package, the size of a grocery package being adapted to containan amount of food intended to be convenient for the customer. Thus, thegrocery store customer may select to purchase food by selecting aplurality of food item packages. The purchasing process typicallyinvolves the customer collecting several food item packages in aphysical transportation cart and the transportation of the cart to acheck-out or cash register for paying. Once the customer has purchasedthe collected food item packages, the customer faces the problem oftransporting the collected grocery items from the grocery store.Accordingly, grocery stores commonly provide carrier bags for enablingtheir customers to carry the groceries from the store in a convenientmanner.

The German Utility Model Application DE 89 04 678 discloses such acarrier bag for groceries. The carrier bag according to DE 89 04 678 ismade solely of paper and it has handles attached to the open upper partof the side walls for enabling convenient carrying of the grocerycarrier bag. According to DE 89 04 678, the production of a paper baginvolves forming a tubular paper web from a planar piece of paper byplacing two edges so that they overlap. The overlapping area is glued soas to form the tubular paper web. The tubular paper web is folded toform a carrier bag having four sides and a square bottom. The carrierbag embodiment disclosed in DE 89 04 678 also has two handles made ofreinforced paper strips. Each handle is made by a folding a paper stripto form a U-shape. The two end portions of the U-shaped handle strip ofa handle are glued, at a distance a from each other, to the exteriorsurface of one side wall of the carrier bag.

Another carrier bag is disclosed by US 2013/0315507. More particularly,US 2013/0315507 discloses a bag, made of paper, essentiallycharacterized in that the handle for grabbing and transporting it isbuilt into its own body, formed by some die cut holes. The die cut holesare located at a sufficient distance from the top edge of the paper bagto allow performing some folds to close the bag in a way such that thedie cut holes are just below the folds allowing for the users fingers togo through in order to grab the bag.

SUMMARY

In view of the state of the art, a problem to be addressed by an aspectof the invention, is how to achieve an improved, yet cost-efficient,transportation of goods using a container.

This problem is addressed by a grocery transport system comprising

-   -   a storage facility (600) for goods; the storage facility        comprising one or several storage rooms having a controlled        environment in that the temperature and the relative humidity of        the air in the storage room is controlled so that it is kept        within certain predetermined ranges; wherein    -   the goods comprises a plurality of different types of goods        sorted into different temperature ranges (TI, TII, TIII, TIV),        each type of goods being stored in a corresponding storage room        (650 _(TI), 650 _(TII), 650 _(TIII), 650 _(TIV)) having a        temperature in accordance with the corresponding goods        temperature range (TI, TII, TIII, TIV);    -   a loading facility for enabling chilled or frozen goods is to be        packed into closable and sealable containers (20); said loading        facility comprising a plurality of said closable and sealable        containers (20) for use in the distribution of said chilled or        frozen goods in an air atmosphere environment;    -   a delivery vehicle for transporting said closable and sealable        containers (20), when loaded with a predetermined amount of        chilled or frozen goods, to a delivery destination, wherein such        a container comprises:        -   a wall adapted to enclose an interior storage space for            transporting chilled and/or frozen goods, the wall being            shaped and adapted to form said interior storage space to a            volume of at least ten metric litres; said wall comprising:    -   a) a layer of a material having a thermal conductivity of less        than 0.2 W/(K*m); and    -   b) a substantially water vapour impermeable membrane bonded to        at least one side of said material layer; and    -   c) a closable opening such that the container in its closed        state substantially seals the interior storage space from the        environment so as to minimize or prevent entry of air from the        environment into the interior storage space; and wherein    -   said material layer has a tensile strength exceeding 0.133        Newton/square millimeter.

BRIEF DESCRIPTION OF THE DRAWINGS

For simple understanding of the present invention, it will be describedby means of examples and with reference to the accompanying drawings, ofwhich

FIG. 1 is a schematic illustration of an environment 10 in whichembodiments of a grocery bag 20 may be used.

FIG. 2 is an elevational view of an embodiment of a single collapsedgrocery carrier bag 20A.

FIG. 3 is a front view of the collapsed grocery carrier bag 20A; and

FIG. 4 is a rear view of the collapsed grocery carrier bag 20A.

FIG. 5 is a side view of the collapsed grocery carrier bag 20A, as seenin the direction of arrow A in FIG. 4.

FIG. 6 is an elevational view of the expanded grocery carrier bag 20 inan open expanded state 20B. In FIG. 6 the folds of the paper walls areillustrated, and several parts on the inside of the carrier bag are alsoindicated.

FIG. 7 is another elevational view of the expanded grocery carrier bag20 in an open expanded state 20B, illustrating an exterior look of anembodiment of the expanded grocery carrier bag 20, 20B.

FIG. 8 is a top plan view of the expanded grocery carrier bag 20 in anopen expanded state 20B.

FIG. 9 is an elevational view of the expanded grocery carrier bag 20 ina closed expanded state 20C.

FIG. 10 is a top plan view of the expanded grocery carrier bag 20 in theclosed expanded state 20C.

FIG. 11 is a front view of the expanded grocery carrier bag 20 in theclosed expanded state 20C.

FIG. 12A is a side view of the expanded grocery carrier bag 20 in theclosed expanded state 20C, as seen in the direction of arrow B in FIG.11.

FIGS. 12B-D illustrate that a lowered density of the paper layer, with amaintained surface weight, will lead to an increased thermal resistanceof the kraft paper wall.

FIG. 13 is a cross-sectional view of the wall material at a pointindicated by arrow C in FIG. 11.

FIG. 14 is an illustration of an embodiment of the closure device 240.

FIG. 15 is an illustration of Kraft Pulp Fibres.

FIG. 16 is an illustration of an embodiment of the first elongatedclosure element 240A, and the second elongated closure element 240B.

FIG. 17A is a perspective view of a part of the closure device 240 shownin FIG. 14.

FIG. 17B is a side view of the closure device 240.

FIG. 18 is an illustration of an embodiment of an insulator device.

FIG. 19 is an elevational view of an embodiment of the expanded grocerycarrier bag in an open expanded state, placed next to an embodiment of acollapsible grocery inner chill bag.

FIG. 20 is an elevational view of an embodiment of a handle-carryablegrocery carrier chill bag package.

FIG. 21 is a schematic block diagram of an embodiment of a system fordelivering groceries.

FIG. 22 is a schematic block diagram of an embodiment of a storagefacility comprising plural storage rooms.

FIG. 23A-C is a schematic block diagram of an embodiment of a method fordelivering chilled or frozen goods according to an embodiment.

FIG. 24 is an illustration of an embodiment of a substantially sealedcontainer.

FIG. 25 is an illustration of test results.

FIG. 26 illustrates examples of graphs of the temporal progression oftemperature in two positions in a block of ice which was placed in abag.

FIG. 27 illustrates examples of graphs of the temporal progression oftemperature in two positions in a 4.7 litre canister of fresh waterwhich was placed in a bag.

FIG. 28A-B are flowcharts of a method for providing a carrier bag.

FIG. 29 illustrates of a method for providing a transport container.

FIG. 30 is a flowchart of a method for providing a handle.

FIG. 31 is a flowchart of a method for providing closure means for atransport container.

FIG. 32A is an elevated view of a cone shaped container in its expandedstate.

FIG. 32B is an illustration of a cone shaped container in its flatstate.

FIGS. 33A-B are illustrations of stacked cone shaped containers.

FIG. 34A-B illustrates an elevated view and a flat view, respectively,of a container with a truncated cone.

FIG. 35 is an illustration of a method for providing a bag with aclosure.

FIG. 36 is an illustration of an example of a pre-determined pattern.

FIGS. 37A-N are illustrations of possible steps of how thepre-determined pattern from FIG. 36 can be formed and folded to arriveat a bag.

FIG. 38 is an illustration of an example of a pre-determined pattern.

FIG. 39 is an illustration of an example of a pre-determined pattern.

FIG. 40 shows a protrusion at a front panel.

FIG. 41 shows a side view of a protrusion.

FIGS. 42A-C are illustrations of examples of handles.

FIG. 43A is an illustration of a flat state of a carrier with a handle.

FIG. 43B is an illustration of bag is in an expanded state.

FIG. 44 is an illustration of a string as a provided handle.

FIG. 45A-E are illustrations of different kinds of attaching a closuredevice.

FIG. 46 is an illustration of an example of providing a closure element.

FIG. 47 illustrates a side view of an elongated closure element.

FIG. 48A-C are illustrations of examples of closure elements.

FIG. 49A-C are illustrations of examples of how the folding described inrelation to FIG. 40 and FIG. 41 can be applied to a bag with the basepattern of FIG. 36.

FIG. 50A-C are illustrations of examples of how the folding described inrelation to FIG. 40 and FIG. 41 can be applied to a bag with the basepattern of FIG. 36.

DETAILED DESCRIPTION OF EMBODIMENTS

In the following description similar features in different embodimentswill be indicated by the same reference numerals.

FIG. 1 is a schematic illustration of an environment 10 in whichembodiments of a container 20 for goods may be used. According to anembodiment, the container 20 is a grocery bag 20. The environment mayinclude a grocery store 30, wherein a large number of grocery items 40are provided. A piece of grocery 40, or a food item 40, in a moderngrocery store 30 may be provided in a separate package 40A, the size ofa grocery package 40A being adapted to contain an amount of packagedfood 40B intended to be convenient for the customer.

Thus, a grocery store customer 60 may select to purchase food byselecting a plurality of food item packages 40. The purchasing processmay typically involve the customer walking through the grocery storewhile collecting several food item packages 40 in a physicaltransportation cart 70, and transporting the cart to a check-out 80, orcash register 80, for paying.

The grocery packages 40 collected by a customer 60 may comprise freshproduce, such as fruit or mushroom, which may be provided in separateportion sized packages or containers 40A. Fresh produce may be providedat a cool temperature of about 15-18 degrees Centigrade, being held in aslightly cooled part of the grocery store. Thus, some grocery goods maybe provided at a first, cool, temperature range of about 15-18 degreesCentigrade.

The grocery may comprise dairy products, such as milk, cream and butter.The dairy products may be provided in separate individual packages, andthey may be provided in fridges at a temperature of about 6-8 degreesCentigrade. An individual dairy product package may typically range insize from around 100 grams to about 4 kg. Dairy product packagesintended for use in private household commonly have a size of between200 grams to 2 kg. For example milk may be provided in a carton package,such as a Tetra Pak® package containing e.g. 1 litre of milk, weighingabout 1 kg. Thus, some grocery goods may be provided at a second, coldnon-freezing, temperature range. The cold non-freezing temperature rangemay be a range of about +6 to +8 degrees Centigrade. Alternatively, thecold non-freezing temperature range may be a range of about +1 to +4degrees Centigrade.

The grocery, which may be collected by the customer, may also comprisefrozen food packages 40, provided in a freezer within the grocery store.Thus, the frozen food items 40B, for delivery at a temperature of e.g.about −18 degrees Centigrade, may be collected by the customer directlyfrom a freezer. The frozen food 40B may be separately packaged e.g. in acarton box 40A. The frozen food may, for example include frozen fish,meat, or vegetables. The frozen food may have been frozen in a rawstate, or, alternatively, it may be provided in a prepared manner suchthat it is ready to eat after thawing or heating. Thus, some grocerygoods may be provided at a freezing temperature range of about −18degrees Centigrade, or colder. In general, frozen goods does not sufferany harm from being chilled to a lower temperature than −18 degreesCentigrade, and accordingly frozen grocery goods may be provided at afreezing temperature in a range of between −25 to −40 degreesCentigrade. Providing frozen goods within such a low temperature rangeadvantageously extends the time required for the frozen goods to warmtowards minimum freezing temperatures, such as e.g. −10 or −4 degreesCentigrade.

In order to achieve cost-efficient handling of the goods 40, sold in thegrocery store, the grocery store typically receives a large variety offood items, each food item typically being received in bulk, i.e. anindividual received food item type is received as a large number ofsmaller packages. As mentioned above, the smaller packages are adaptedto contain an amount of packaged food 40B intended to be convenient forthe customer, who typically buys just one or a few packs of each item.

Similarly, it is important to provide the grocery bags 20 in bulk to thegrocery store, so as to allow cost-efficiency. Accordingly, the grocerybag 20 should preferably be collapsible. The collapsible grocery bag 20may advantageously be delivered in bulk to the grocery store, thusrequiring a very small storage volume, thereby contributing tocost-efficiency. Hence, a large plurality of collapsible grocery bagsmay advantageously be delivered in a collapsed state 20A, therebyenabling transportation of the carrier bag in a substantially flat state20A. In this manner, a large plurality of collapsible grocery bags maybe conveniently provided at a location in the grocery store. In thismanner, customers can conveniently collect and bring a desired number ofgrocery bags for transporting groceries.

According to another embodiment, the container 20 may be shaped in sucha manner that plural containers 20 can be piled on top of each other ina space conservative manner. An example of such a space saving shape isa cone shaped container. In this manner plural cone shaped containersmay be stacked by placing one cone container on top of the other suchthat the space required for storing ten containers is only slightlylarger than the space required for storing one cone container. Accordingto an embodiment the container may be shaped as a truncated cone suchthat there is provided a substantially flat bottom area inside thetruncated cone container, the cone wall leaning outwardly from thebottom area. In this manner the truncated cone container may also bestacked or piled so that one container fits inside the nextsubstantially identical container, thus enabling transport of a largenumber of stacked containers within a very small space. This feature ofthe container advantageously contributes to enable transportingcontainers 20 in bulk at a low cost.

The collapsed grocery bag 20A comprising kraft paper, as describedbelow, has a balanced rigidity and flexibility allowing it to be easilyexpanded. In its expanded state 20C the carrier bag provides an interiorstorage space which is sufficiently large for transporting a pluralityof grocery packages, even when the individual grocery packages arelarger than 1 litre. According to some embodiments, the carrier bag hasa volume of between 10 litres and 50 litres in the expanded state of thecarrier bag.

Having collected the desired combination of grocery packages 40 in thephysical transportation cart 70, the customer 60 may transport the cartto a check-out 80, or cash register 80, for paying.

With reference to FIG. 1, the customer 60 may collect a collapsedgrocery carrier bag 20A from a pile 90 of collapsed grocery carrier bags20A. The customer 60 may then unfold the grocery carrier bag 20A it toits open expanded state 20B (See FIG. 6, FIG. 7 and FIG. 8), so that itis ready be loaded with groceries.

FIG. 2 is an elevational view of an embodiment of a single collapsedgrocery carrier bag 20A.

FIG. 3 is a front view of the collapsed grocery carrier bag 20A; and

FIG. 4 is a rear view of the collapsed grocery carrier bag 20A.

FIG. 5 is a side view of the collapsed grocery carrier bag 20A, as seenin the direction of arrow A in FIG. 4.

FIG. 6 is an elevational view of the expanded grocery carrier bag 20 inan open expanded state 20B. In FIG. 6 the folds of the paper walls areillustrated, and several parts on the inside of the carrier bag are alsoindicated.

FIG. 7 is another elevational view of the expanded grocery carrier bag20 in an open expanded state 20B, illustrating an exterior look of anembodiment of the expanded grocery carrier bag 20, 20B.

FIG. 8 is a top plan view of the expanded grocery carrier bag 20 in anopen expanded state 20B.

When the expanded grocery carrier bag 20 has been filled with chilled orfrozen grocery packages 40, the expanded grocery carrier bag 20 can beclosed.

FIG. 9 is an elevational view of the expanded grocery carrier bag 20 ina closed expanded state 20C, illustrating an exterior look of anembodiment of the expanded grocery carrier bag 20 in its closed state20C.

FIG. 10 is a top plan view of the expanded grocery carrier bag 20 in theclosed expanded state 20C.

FIG. 11 is a front view of the expanded grocery carrier bag 20 in theclosed expanded state 20C.

FIG. 12A is a side view of the expanded grocery carrier bag 20 in theclosed expanded state 20C, as seen in the direction of arrow B in FIG.11.

As illustrated in FIG. 12A, the expanded grocery carrier bag 20 in theclosed expanded state 20C may have a larger cross-sectional area A1 nearthe bottom panel 140 and a smaller cross-sectional area A2 near theclosed opening, i.e. in the vicinity of the rim portion 150. Asschematically illustrated in FIG. 1, the grocery carrier bag 20 in itsclosed expanded state 20C may have a generally tapered shape, having alarger cross-sectional area near the bottom panel and a smallercross-sectional area near the opening.

Accordingly, an embodiment of the collapsible handle-carryable grocerycarrier bag is suitable for use in an air atmosphere environment. Thecarrier bag has a collapsed state 20A (See FIGS. 2, 3 and 4) forenabling transportation of the carrier bag in a substantially flatstate.

As mentioned above, the carrier bag may also have an expanded state 20B,20C such that the carrier bag, in its expanded state, provides aninterior storage space 100 (FIGS. 6 and 8) for transporting chilledand/or frozen grocery packages 40 (See FIG. 8). The carrier bag maycomprise a paper layer being shaped and folded so as to form

-   -   a front wall panel 110, S1A (See FIG. 3),    -   a back wall panel 120, S1B (See FIG. 4),    -   two side wall panels 130A, S2A, 130B, S2B (See FIG. 11); and    -   a bottom panel 140 (See FIG. 4).

The wall panels, i.e. the front wall panel 110, the back wall panel 120,the two side wall panels 130A and 130B and the bottom panel 140 maycooperate to form said interior storage space 100. The interior storagespace 100 may be of a volume larger than 10 litres in the expanded stateof the carrier bag. The volume depends on the dimensions of the bottompanel and the wall panels.

A rim portion 150 of the wall panels 110, 120, 130A and 130B facing awayfrom the bag bottom panel 140 may provide a bag opening 160 (FIG. 6 andFIG. 7). The carrier bag may further comprise a first handle 170A beingassociated with said rim portion 150, 150A of said front wall panel S1A.The first handle 170A may be shaped and dimensioned to allow gripping bya human hand such as to enable convenient carrying of the grocerycarrier bag. In some businesses where carrier bags are utilized, it isconsidered necessary for a carrier bag to be provided with a handle,since a handle-carryable grocery carrier bag is considered to be afundamental customer convenience requirement. Thus, in some cases, agrocery bag which is capable of being carried by means of a handle, or apair of handles, is considered to be a fundamental customer conveniencerequirement. According to some embodiments, the carrier bag is thereforeadvantageously provided with an integrated handle, or an integrated pairof handles such that a handle-carryable grocery carrier bag is supplied.This solution advantageously allows a person to carry the loaded bag bythe built-in handle, or handles, in a convenient and ergonomicallyadvantageous manner.

As mentioned above, the carrier bag may have an open expanded state 20B(FIG. 6 and FIG. 7) for loading and/or unloading grocery packages to betransported, and a closed expanded state 20C (See FIG. 9 and FIG. 10).In its closed expanded state 20C, the carrier bag may provide asubstantially closed interior storage space 100. The bag opening 160(FIGS. 6 and FIG. 7) is a closable opening which, in the closed expandedstate (FIG. 9) of the carrier bag may cooperate with the wall panels andthe bottom panel so as to minimize or prevent entry of air from theenvironment into the interior storage space. Hence, the substantiallyclosed interior storage space may advantageously be used fortransporting chilled and/or frozen grocery packages, since the carrierbag, in its closed expanded state 20C, may exhibit a very good abilityto maintain a low temperature of chilled or frozen items that are storedin the closed interior storage space.

A Container Wall

The advantageous cold keeping properties of embodiments of the container20 is believed to rely on a combination of container features. Forexample, in the carrier bag 20, the choice of material forming the frontwall panel S1A, the back wall panel S1B, the side wall panels S2A, S2B;and the bottom panel contributes to the advantageous cold keepingproperties. It is to be noted that the design of the container walls isnot limited to the above shape. Instead, the word wall is to beunderstood as a material forming the boundaries of the interior storagespace of the container 20. The wall or walls of the container 20 formsthe boundaries of the interior storage space for transporting chilledand/or frozen goods.

According to some embodiments the walls of the container 20 comprise akraft paper layer 180. Kraft paper is a material which is available at areasonable cost, and it is readily available in large quantities.Additionally, kraft paper bags, such as the carrier bag disclosed in DE89 04 678, are mass produced at low cost using readily availableproduction machines. Accordingly, embodiments of the carrier bag 20 maybe produced using such readily available machines, or by just some minormodifications to existing kraft paper bag production machines. Thisavailability of existing paper bag production machines, in conjunctionwith embodiments of the bag design enabling the use of such existingproduction machines for the production of kraft paper carrier bagshaving a chill conserving function contribute to enabling anadvantageously low production cost. Thus, the fact that existingmanufacturing machines can be used contributes to enabling costeffective manufacture of the chill conserving kraft paper bag accordingto embodiment of the invention. This is particularly important forfacilitating market entry, i.e. for enabling market introduction andsales of kraft paper carrier bags according to embodiments of theinvention in the short term to medium time frame, since use of existingmachines contributes to enabling the low production cost. Embodiments ofmethods for the production of kraft paper carrier bags are discussedfurther below in this document. Moreover, Kraft paper is advantageous inthat it is biodegradable and environmentally friendly.

The kraft paper layer 180 may have a surface weight in the range between40 and 240 grams per square metre, and a density lower than 1200 kg percubic metre. The surface weight of the kraft paper may be selected independence on the tensile strength to which the bag will be exerted whenin use. In this connection it is noted that a carrier bag may beproduced in various sizes, such as e.g. a ten litre bag, a twenty litrebag, a thirty litre bag, a forty litre bag, or a fifty litre bag. It ispossible to use kraft paper with as low surface weight as 40 g/squaremetre and a density lower than 1200 kg/cubic metre, at least for thesmall size bags of ten or twenty litre storage space, when the smallsize bag will be used for carrying lower weights. The maximum weight ofthe goods to be transported will, to some extent, be limited by the sizeof the bag.

Thus, the walls, including the bottom panel, may comprise a kraft paperlayer 180 (FIG. 13). It has been found that a grocery bag having a Kraftpaper layer having a surface weight of between 60 and 160 grams persquare metre generally provides a satisfactory strength while alsoproviding sufficient flexibility so as to be user friendly. According topreferred embodiments of the kraft paper bag, the kraft paper isselected to have a surface weight of at least 60 g/square metre and adensity lower than 1000 kg/cubic metre.

According to a preferred embodiment of the Kraft paper grocery bag theKraft paper layer has a surface weight of between 100 and 140 grams persquare metre, and a density lower than 1000 kg/cubic metre.

The inventors have considered the following in terms of choice of kraftpaper quality:

A) An increased surface weight of the paper, with an unchanged paperdensity, leads to an increased thickness of the paper layer. Since theinternal thermal resistance R_(tw) of a wall, in terms of heatconduction, is proportional to the wall thickness, the increasedthickness of the paper layer advantageously increases the thermalresistance of the kraft paper wall thereby leading to reduced conductionof heat through the container wall from the environment.

B) Moreover, it is noted that a lowered density of the paper layer, witha maintained surface weight, will advantageously lead to an increasedthermal resistance of the kraft paper wall, thereby leading to reducedconduction of heat through the container wall from the environment whenthe bag is in use. In fact, the effect on thermal resistance isadvantageously two-fold when the density of the paper layer is loweredwith a maintained surface weight, since this will lead to

-   -   I) an increased wall thickness, and    -   II) an increase of the amount of air being trapped inside the        kraft paper.

This is illustrated with reference to FIG. 12B, FIG. 12C, and FIG. 12D.FIG. 12B illustrates a portion of a kraft paper wall layer 180B, havinga wall thickness t₁ and a density D₁. The thermal resistance Rtw1 of thewall is a function of the thickness t1 and the density D1:R _(tw1) =f(t ₁ ,D ₁)

With reference to FIG. 12C, the wall 180C has been made with a largerthickness t₂=K₁*t₁, K being a number larger than 1. The thermalresistance R₂ will be increased proportionally toR _(tw2) =f(t ₂ ,D ₁)=K ₁ *R _(tw1)

With reference to FIG. 12D, a wall 180D has been made with the largerthickness t₂ and it also has a decreased density D₂=K₂*D₁, K₂ being anumber smaller than 1. Thus, in comparison to the wall 180B of FIG. 12B,the thermal resistance R_(tw3) will first be increased proportionally tothe increase in thickness and then it will also be further increased dueto the decreased density.R _(tw3) =f(t ₂ ,D ₂)>K ₁ *R _(tw1)

When the density is decreased, there will be a larger proportion of airin the kraft paper layer. The following assumption may be made for thepurpose of understanding the effect of a changed density: The proportionof gas P_(G), such as nitrogene or air, in the kraft paper layer may beexpressed as:P _(G) =V _(G) /V _(tot)=(D _(mean) −D _(fib))/(D _(gas) −D _(fib))

Assuming a mean density of the paper fibres and the gas contents (theapparent density of the kraft paper) of, for example, 901 kg/m³ and anair density of 1.2 kg/m³, the proportion of air in the kraft paper isabout 40%. At NTP, i.e. Normal Temperature and Pressure dry air has adensity of 1,204 kg/m³.

In this connection it is noted that air has a very low heat conductivityof about 0.024 W/(m K), and thus an increased proportion of air in thekraft paper proves to have a dramatic effect in terms reducing heatconductivity of the kraft paper layer.

C) An increased surface weight of the kraft paper in combination with alower density leads to a yet a further increase of the internal thermalresistance of the kraft paper wall.

Thus, the inventors concluded that, when designing a kraft paper bag, itmay be done by a procedure as follows:

S1. First select a surface weight of the kraft paper in dependence onthe tensile strength to which the bag will be exerted when in use.

S2. Reduce the density of the selected paper layer, with a maintainedsurface weight, so as to achieve an increased thermal resistance of thekraft paper wall.

S3. When a reduced density of the kraft paper may have a somewhatweakening effect on the tensile strength, the surface weight selected instep 1, may be increased by a safety margin so as to ensure theintegrity of the paper bag when in use.

The tensile strength needed is generally higher for a larger bag, sincea larger bag will enclose a larger volume, and weight, of goods. Thus,when transporting a certain amount of frozen or chilled goods, anappropriate size container should the selected. The bag size should beselected sufficiently large that the chilled goods fits inside, ofcourse, but for optimum chill conserving ability of the bag, the chilledor frozen goods should preferably fill more than 30% of the insidevolume of the container 20. Hence, when packing chilled goods into thecontainer, the container size should be selected sufficiently small sothat, when packed with the cold or frozen goods, the cold or frozengoods fill up more than 30% of the inside volume of the selectedcontainer 20. The selection of an appropriate size container contributesto the chill conserving properties of the packed container, since thethermal resistance of the wall is decreased in dependence on anincreased wall surface area.

A kraft paper layer advantageously provide a good tensile strength andit also contains a certain amount of air or gas, thus contributing tothe thermal insulation capacity of the container 20.

Another embodiment comprises non-woven as wall material. Thisadvantageously enables a non-expensive bag with a material having highair content, and it is therefore a good alternative. Non-woven materialmay comprise slender fibers which are not woven or knitted but are kepttogether in other ways, such as by entanglement. Non-woven materials mayinclude textile-like materials. Here below there is a list of othersuitable materials:

-   -   Conventional textiles    -   Film of foamed/porous thermoplastic. The thermoplastic may be a        conventional oil-based plastic such as polyethylene,        polypropylene or polyurethane. It is also possible to use a        bio-based plastic, polylactic acid (PLA)    -   Film of foamed/porous rubber (rubber can be of many types, but        neoprene (chloroprene rubber) are preferred. Said non-woven        materials and conventional textiles have a tensile index value        exceeding 50 kNm/kg.

All these container wall materials are selected to have a thermalconductivity value less than 0.2 W/(m·K):λ<0.2 W/(m·K).

An Insulating Air Gap

Preferably, bag size should be selected such that an air gap is allowedto form between the inner surface of the container and the outer surfaceof the cold or frozen goods. Such an air gap is advantageous in that theair gap renders extra insulation against the exterior environment, whichmay be warm. According to an embodiment, the middle portion of interiorthe surface of the bag bottom may be marked so as to indicate that it isa loading zone for chilled goods. This advantageously indicates to theuser of the chill container that goods to be transported shouldpreferably be placed within the indicated area for optimum chillconserving effect during transport. In this manner a simple marking ofthe bag bottom will be indicative of a three-dimensional bag loadingzone volume within the bag, the bag loading zone volume being separatedfrom the side wall(s) of the bag by an air gap.

According to another embodiment, there is provided a number of strips,e.g. kraft paper strips, having lengths commensurate with a width and abreadth of the paper bag; the strips being attached to the innersurfaces of the walls such that, when the bag is in its expanded state,the strips are arranged to stretch from wall to wall. In this manner thestrips may advantageously provide a visual indication of the loadingzone volume of the bag. The strips may also advantageously providesupport for goods to be transported so as to prevent such goods fromleaning against the bag wall when the bag is transported.

According to an embodiment, the middle portion of interior the surfaceof the bag bottom may be marked so as to indicate that it is a loadingzone for chilled goods (as described above), and the strips may beattached and positioned to the bag walls so that whengoods-to-be-transported is stacked on the marked loading zone on the bagbottom (which may lead to the marked bottom area being covered), thepaper strips will still indicate the loading zone volume of the bag.

Thus, for optimum cold conserving properties of the packed container,the container size should be selected sufficiently small so that, whenpacked with the cold or frozen goods, the cold or frozen goods fill upmore than 30% of the inside volume of the selected container 20, whilealso allowing for an air gap to be formed between the cold or frozengoods and the inner surface of the container wall or walls.

Moreover, the kraft paper layer 180 may have a substantially watervapour impermeable membrane 190 bonded to at least one side of the kraftpaper layer.

A Membrane 190 on the Wall

According to an embodiment the polymer membrane layer 190 may compriseLow-density polyethylene (LDPE). The LDPE membrane may have a density inthe range from 910 to 940 kg/m3. The LDPE-membrane layer may have an airpermeability of less than 0.35 μm/(Pa·s) in accordance with ISO5636-3:2013.

According to a preferred embodiment the polymer membrane layer 190 maycomprise a biodegradable plastic, such as e.g. Polylactic acid (PLA),polyhydroxyallkanoates (PHAs) such as poly-3-hydroxybutyrate (PHB). Thepolymer membrane layer 190 may alternatively comprise a biodegradableplastic such as polyhydroxyvalerate (PHV), or polyhydroxyhexanoate(PHH), polybutylene succinate (PBS), polycaprolactone (PCL), polyvinylalcohol (PVA). The polymer membrane layer 190 may alternatively comprisebiodegradable plastics such as a starch based plastics, plastics basedon natural oils and fats (fatty acid esters obtained bytransesterification of naturally occurring fats and oils).

The polymer membrane layer 190 may alternatively comprise abiodegradable plastic such as a cellulose-based plastics (e.g. celluloseacetate).

The polymer membrane layer 190 comprising a biodegradable plastic asdefined above may be extrusion coated on a kraft paper layer.

Alternatively a biodegradable plastic as defined above may be dispersioncoated on a kraft paper layer. The dispersion coated biodegradableplastic can advantageously be recycled in a conventional paper recyclingprocess.

The use of biodegradable plastic for the polymer membrane layer 190 ispreferred since it may be combined with a wall material having asufficient tensile strength and also being biodegradable, such as e.g.kraft paper, thus rendering a kraft paper carrier bag which not onlyprovides outstanding chill retaining properties, but also is fullybiodegradable.

According to another embodiment, the polymer membrane layer 190comprises a non-biodegradable plastic which may be produced from fossiloil. Such a plastic membrane advantageously provides a good water vapourbarrier.

FIG. 13 is a cross-sectional view of the wall material at a pointindicated by arrow C in FIG. 11. FIG. 13 is illustration of anembodiment of material layers at rim portion 150 of the front wall 110at a position where the handle strip is attached to the front wall 110.According to an embodiment the water impermeable and water vapourimpermeable membrane 190 may be provided on the side of the kraft paperlayer 180 facing the interior of the bag, as illustrated in FIG. 13.According to an embodiment, the water vapour impermeable membrane 190 isdistributed over substantially all of the surface on one side of thepaper layer 180. According to an embodiment the water vapour impermeablemembrane 190 comprises a polymer. According to an embodiment the polymerlayer 190 may be a layer of PE or Polyethylene.

As shown, e.g. in FIG. 6, the first handle 170A may comprise a paperstrip formed in a U-shape and having two paper strip end portions 200Aand 210A. The paper strip end portions 200A and 210A of the first handle170A may be attached to said rim portion 150 of said front wall panel110, S1A. With reference to FIG. 13, the paper strip end portion 210Amay be attached to the membrane 190 by means of a glue layer 220.

A first substantially planar reinforcement sheet 230 (See FIGS. 6 and13) having a certain size may be provided in order to distribute thelifting force from the first handle paper strip end portions to a largersurface area of the front wall panel 110, S1A. The first substantiallyplanar reinforcement sheet 230 may have a first sheet surface 230A and asecond sheet surface 230B on opposite sides of the substantially planarreinforcement sheet 230. The first reinforcement sheet 230 may beattached to the paper strip end portion 210A of the first handle 170Aand to said rim portion 150 of said front wall panel 110, S1A such thatsaid paper strip end portion 210A of the first handle 170 is locatedbetween the front wall panel 110, S1A and the reinforcement sheet 230.

The first surface 230A of the first reinforcement sheet 230 faces thepaper strip end portion 210A of the first handle 170A and said rimportion 150 of the front wall panel 110, S1A. The first surface 230A ofthe first reinforcement sheet 230 may be bonded to the paper strip endportion 210A and to said rim portion 150 of said front wall panel 110S1A so as to distribute lifting force from said paper strip end portionsto said front wall panel via said first reinforcement sheet.

With reference to FIG. 6 in conjunction with FIG. 9, the bag opening 160is closable by means of a mechanical interlock 240, or closure device240 attached to said rim portion 150. The closure device 240, in theclosed expanded state of the carrier bag, cooperates with the wallpanels and the bottom panel to minimize or prevent air from theenvironment from entering the interior storage space. The closure device240 includes a first elongated closure element 240A, and a secondelongated closure element 240B.

FIG. 14 is an illustration of an embodiment of the closure device 240.The first elongated closure element 240A is integrated with a secondsubstantially planar reinforcement sheet 250A, the second reinforcementsheet 250A having a predetermined area extension which is larger thanthe above mentioned certain size of the first substantially planarreinforcement sheet 230. The second substantially planar reinforcementsheet 250A may be attached to the first reinforcement sheet 230 and tothe rim portion 150 of said front wall panel 110, S1A such that thefirst reinforcement sheet 230 is located between the front wall panel110, S1A and the second substantially planar reinforcement sheet 250A.The second substantially planar reinforcement sheet 250A may be attachedby a glue layer 260. According to an embodiment the second substantiallyplanar reinforcement sheet 250A comprises polymer material. According toanother embodiment the second substantially planar reinforcement sheetcomprises paper.

The second substantially planar reinforcement sheet being bonded to thesecond sheet surface of the first substantially planar reinforcementsheet advantageously achieves two effects. On the one hand, theelongated closure device is thereby attached to the bag wall, and on theother hand the second substantially planar reinforcement sheet 250A alsoacts to distribute lifting force from said first substantially planarreinforcement sheet to said front wall panel via said secondreinforcement sheet, the lifting force originating from the handle whenthe bag is carried by lifting the handle 170A (See FIG. 6). Asillustrated in FIGS. 14 and 6, the second substantially planarreinforcement sheet 250A may have a lower edge 270, and the secondsubstantially planar reinforcement sheet 250A may have a physicalextension of between 10% and 30% of the height of a wall panel 110.

The second substantially planar reinforcement sheet 250A may be attachedto an interior surface of the rim portion 150 of the front panel 110 andto a part of an interior surface of the rim portion 150 of a side panel,as shown in FIG. 6.

The paper strip end portions of the first handle and said firstreinforcement sheet are sized and dimensioned so as to withstand a forceexceeding 100 Newton.

The kraft paper layer comprises a certain amount of air being trappedwithin the kraft paper layer. This trapped air is believed to contributeto good insulating property of the bag walls and bag bottom. In fact,embodiments of the carrier bag have been tested and the tests included ameasurement with an Infra-red camera for a duration of more than 24hours, while the closed carrier bag was placed in a warm room at atemperature of 25° Centigrade. The bag was placed such that the bottompanel 140 was placed on the floor, and the bag was standing with the rimportion 150 facing upwards. During this testing, the temperature on theouter surface of a closed carrier bag was detected and the temperaturedevelopment was registered as time passed. The closed carrier bag waspacked with a number of chilled and frozen grocery packages. Whereas,these measurements indicated that outer surface of the lower part of thebag side walls stayed colder than the outer surface of the upper rimportion 150, the tests also indicated that it was not possible todetect, from the outer surface temperature as detected with the IRcamera the shape of the grocery bag contents. In other words, individualfrozen or chilled packages 40 which were positioned in the interiorstorage space 100 (FIG. 8) could not be distinguished by measurements ofthe outer surface temperature of the bag wall. This was considered toindicate that the material of the wall is an efficient isolator forinfrared radiation i.e. heat radiation.

A Kraft paper layer of more than 140 grams per square metre may beadvantageous for certain uses of the carrier bag, but the embodiment ofthe grocery carrier bag intended for use in grocery stores, allowing enduser customers to pack their groceries into the bag, will preferablyhave a Kraft paper layer of 140 grams per square metre, or less than 140grams per square metre. This is because the Kraft paper layer of morethan 140 grams per square metre may be experienced to be a bit toostiff, whereas a Kraft paper layer of 140 grams per square metre or lessthan 140 grams per square metre will be more flexible, and thus moreconvenient to handle.

FIG. 15 is an illustration of Kraft Pulp Fibres. According to anembodiment the kraft paper layer may comprise a plurality of Kraft PulpFibres 270 which are arranged one above the other so as to form pluralair gaps within the kraft paper layer. According to one embodiment thekraft paper layer comprises a plurality of Kraft Pulp Fibres which arearranged one above the other so as to form plural air gaps within thekraft paper layer, and at least some of the Kraft Pulp Fibres have alength in the range between 1 and 3 mm and/or a width in the rangebetween 10 and 50 micrometer. At at least some of the plural air gapshave a volume exceeding 200 000 cubic micrometers according to thatembodiment.

According to an embodiment the substantially water vapour impermeablemembrane is bonded to the side of the kraft paper layer facing theoutside of the bag. This solution advantageously allows user to placebag on ground even when its rainy and wet without causing deterioratedstrength of the bag, since the water vapour impermeable membrane mayprevent or minimize the absorption, by the kraft paper, of any waterdeposited on the exterior surface of the bag.

Closability of Container Opening

FIG. 16 is an illustration of an embodiment of the first elongatedclosure element 240A, and the second elongated closure element 240B. Thefirst elongated closure element 240A, and the second elongated closureelement 240B are adapted to mate with each other in the closed state.According to an embodiment the first elongated closure element 240Acomprises an elongated cavity having lips forming a slit along itslength, so as to enable a mating protrusion to enter the slit betweenthe lips. The lips of the elongated cavity may be compliant so as toclose around the protrusion so as to hold once it has entered into thecavity. According to an embodiment the first elongated closure element240A comprises at least two elongated cavities provided in parallel soas to receive at least two corresponding elongated protrusions of thesecond elongated closure element 240B which are provided in parallel.

According to an embodiment an elongated cavity of the first elongatedclosure element 240A forms an elongated tubular hollow which is adaptedto receive the protrusion of the second elongated closure element 240B.

FIG. 17A is a perspective view of a part of the closure device 240 shownin FIG. 14. FIG. 17B is a side view of the closure device 240.

A movable pressure device 280, also referred to as “runner” 280, may beprovided, according to an embodiment, for the purpose of forcing theprotrusion of the second elongated closure element 240B to enter intothe elongated tubular hollow of the first elongated closure element240A. This solution provides for an advantageously simple handling ofthe bag 20. In particular, a customer, having loaded chilled groceriesinto the bag 20, may easily close the bag by simply sliding the movablepressure device 280 from one edge 290 to the other edge 300 (see FIG. 14in conjunction with FIG. 8 or 7). In this manner, the customer mayeasily close and substantially seal the interior storage space from theenvironment so as to minimize or prevent entry of air from theenvironment into the interior storage space

Whereas frozen groceries which are thawed at a quick pace often exhibita decreased flavour and/or a decreased quality, the inventor has notedthat when such frozen groceries are allowed to thaw only very slowly,the flavour and/or quality of the grocery product is substantiallymaintained. Moreover, the inventor noted that frozen food or groceriesmay actually be allowed to thaw so as to reach a temperature of aroundzero degrees centigrade, or even a bit above zero degrees centigrade,and then be refrozen, while maintaining its initial flavour and/orquality completely intact or substantially intact. In this connection itis noted that the grocery bag 20 exhibits an ability to maintain thefrozen state of initially frozen groceries during a remarkably longtime, thereby maintaining the initial quality and/or flavour of theinitially frozen food stored in the bag.

With reference to FIGS. 1, 7 and 8 a customer 60 may easily close thecarrier bag 20, e.g. by sliding the “runner” or slider 280, therebyachieving a closed and sealed state 20C of the carrier bag, as shown inFIG. 9. With reference to FIG. 1 the customer 60 may then carry the bag20 by lifting the handles 170 and thus bring the frozen or chilledgroceries to a destination 330, such as e.g. a freezer 310 or fridge 320in the customer's home.

FIG. 18 is an illustration of an embodiment of an insulator device. Theinsulator device may be arranged and positioned on at least a portion ofthe bottom panel in the interior storage space 100 of the bag 20 so asto reduce heat transfer through the bottom panel. According to anembodiment the insulator device comprises a piece of material beingshaped and adapted to provide cellular air cushions so as to reduce heattransfer through said bottom panel.

According to an embodiment the insulator device comprises paper and asubstantially water vapour impermeable material. This solutionadvantageously enables the insulator device to withstand a damp or wetenvironment without absorbing water. According to an embodiment thesubstantially water vapour impermeable material of the insulator devicecomprises at least one layer of a polymer material.

According to another embodiment the insulator device comprises at leastone layer of a plastic material. This solution advantageously enablesthe insulator device to withstand a damp or wet environment withoutabsorbing water. According to an embodiment the insulator devicecomprises BubbleWrap®.

FIG. 19 is an elevational view of an embodiment of the expanded grocerycarrier bag 20 in an open expanded state 20B, placed next to anembodiment of a collapsible grocery inner chill bag 400.

The collapsible grocery inner chill bag 400 is suitable for use insideof the carrier bag 20. In likeness to the grocery carrier bag 20, theinner chill bag 400 may have:

-   -   a collapsed state 20A for enabling transportation of the inner        chill bag in a substantially flat state, and    -   an expanded state such that the inner chill bag, in its expanded        state, provides a second interior storage space 410 for        transporting chilled and/or frozen grocery packages. The inner        chill bag 400 may comprise:    -   inner walls and an inner bottom cooperating to form said second        interior storage space; wherein a second rim portion of the        inner walls facing away from the inner bottom provides an inner        bag opening 420. The inner chill bag 400 may have an open        expanded state for loading and/or unloading grocery packages to        be transported, and        -   a closed expanded state such that the inner chill bag, in            its closed expanded state, provides a substantially closed            second interior storage space for transporting chilled            and/or frozen grocery packages. The inner bag opening 420            may be closable opening which, in the closed expanded state            of the inner chill bag cooperates with said inner walls and            said inner bottom so as to minimize or prevent entry of air            from the environment into the second interior storage space.            According to an embodiment the collapsible grocery inner            chill bag 400, in its expanded state, is shaped and            dimensioned to fit inside of the carrier bag 20.

FIG. 20 is an elevational view of an embodiment of a handle-carryablegrocery carrier chill bag package 450. The chill bag package 450illustrated in FIG. 20 includes an expanded grocery carrier bag 20 inthe closed expanded state 20C, and the collapsible grocery inner chillbag 400, in its expanded state; the inner chill bag 400 being shaped anddimensioned to fit inside of the carrier bag 20.

An embodiment of the handle-carryable grocery carrier chill bag package450 may thus comprise a collapsible handle-carryable grocery carrierchill bag 20 and a collapsible grocery inner chill bag 400. Hence, thehandle-carryable grocery carrier chill bag package, in use, may includethe collapsible grocery inner chill bag 400 in its closed expandedstate; and the collapsible handle-carryable grocery carrier chill bag 20in its closed expanded state, wherein the collapsible grocery innerchill bag is placed in the interior storage space 100 of the collapsiblehandle-carryable grocery carrier chill bag 20.

This solution advantageously enables the packing of frozen grocerypackages in the second interior storage space 410. This solutiontherefore enjoys a high thermal resistance from a frozen grocery packagein the second interior storage space to the environment outside of theouter handle-carryable grocery carrier bag, since any air inside of thefirst interior storage space 100 functions as insulation between thesecond interior storage space and the environment outside of the outerhandle-carryable grocery carrier bag. Additionally, there are doublebarriers for minimizing or preventing entry of air from the environmentoutside of the outer handle-carryable grocery carrier bag into thesecond interior storage space when both of the bags are in their closedexpanded states, since the second interior storage space is sealed bythe closed inner bag as well as by the closed outer bag.

As mentioned above, the interior of the bag 20, when in use, may beinitially chilled by the low temperature of frozen or chilled grocerypackages which are placed in the interior storage space 100. Althoughthis is sufficient for maintaining the frozen or chilled state of frozenor chilled grocery packages for an extended period of time, the inventorrealized that this time period may be further extended.

According to an embodiment, there is provided a means 460 for coolingthe interior of the bag 20 so as to enable a further extended period oftime during which the frozen or chilled state of frozen or chilledgrocery packages is maintained.

According to an embodiment the handle-carryable grocery carrier chillbag package 450 may, in use, further comprise a means 460 for coolingthe interior 100 of the bag 20 and/or for cooling the second interiorstorage space 410.

According to an embodiment of the means 460 for cooling the interior ofthe bag, there is provided a cooling agent. A piece of dry ice is anembodiment of such a cooling agent.

Dry ice is the solid form of carbon dioxide. The chemical formula ofcarbon dioxide is CO2. Thus a carbon dioxide molecule comprises twooxygen atoms bonded to a single carbon atom. It is colourless,non-flammable, and slightly acidic. Carbon dioxide can change from asolid to a gas with no intervening liquid form, through a process calledsublimation. The opposite process is called deposition, where CO2changes from the gas to solid phase (dry ice). At earth atmosphericpressure, sublimation/deposition occurs at −78.5° C. Its enthalpy ofsublimation is 571 kJ/kg (25.2 kJ/mol).

The density of dry ice varies, but usually ranges between about 1.4 and1.6 g/cm3. The low temperature and direct sublimation to a gas makes dryice an effective coolant, since it is colder than water ice and leavesno residue as it changes state. According to an embodiment of the DryIce cooling agent, there is provided pellets of dry ice, the size of thepellets being suitable for placing in the interior storage space 100 ofthe bag 20, when the bag 20 is in use as a chill bag. Thus, as the dryice pellets gradually change from a solid form to gaseous carbon dioxidewith no intervening liquid form (sublimation) there is a correspondingenergy consumption of 571 kJ/kg which causes a decrease of thetemperature of any food packages surrounding the dry ice pellets. Thedry ice may be provided in a piece of a suitable size, dependent on theamount of refrigeration desired. According to an embodiment, a singlepiece of dry ice may comprise one kilogram of dry ice. According toanother embodiment, a single piece of dry ice may comprise e.g. 10 gramsof dry ice. According to yet another embodiment, a single piece of dryice may comprise e.g. 100 grams of dry ice. Such relatively small piecesof dry ice may be referred to as dry ice pellets. One or several dry icepellets may be used simultaneously in the interior storage space 100 ofthe chill bag 20, dependent on duration of the period of time it isdesired to keep the interior storage space 100 at freezing temperatures.

According to another embodiment of the means for cooling the interior ofthe bag, there is provided a pressurized container holding a gas.

According to an embodiment, the container may hold pressurized air.

According to another embodiment the container may hold pressurizedcarbon dioxide gas. The container may be embodied by a cylinder. Thus,the cooling means may comprise a cylinder in which carbon dioxide gas isstored under pressure. The pressurized cylinder may be provided with avalve. According to an embodiment, the valve of the pressurized cylinderis adjustably settable between a completely closed state and a state inwhich the valve allows pressurized carbon dioxide gas to flow out fromthe pressurized cylinder. According to a preferred embodiment the valveis settable to a predetermined amount of openness, so as to attain asuitable amount of cooling effect.

According to an embodiment, a user may take a pressurized cylinderhaving a closed valve, and the user may set the valve to thepredetermined amount of openness so as to activate the pressurizedcylinder cooling means. The activated pressurized cylinder cooling meansis placed in the interior storage space 100 of the chill bag 20,together with frozen or chilled grocery packages.

As the carbon dioxide gas, or air, exits from the pressurized cylinderand enters the comparatively much lower pressure (earth atmosphericpressure) in the interior storage space 100 of the chill bag 20 there isa corresponding drop in the temperature of the exiting gas, thus causinga cooling effect. Additionally, the carbon dioxide, or air, slowlyseeping out of the pressurized cylinder may cause a slight increase inthe pressure of the air inside of the chill bag 20. This slight increasein the pressure of the air inside of the chill bag 20 may advantageouslyfurther minimize or prevent entry of air from the environment into theinterior storage space 100 of the chill bag 20. According to anembodiment of the bag 20, there is provided a valve in one of the wallsof the bag 20 so as to prevent any build-up of any significant pressurein the bag 20. The valve may be a check valve adapted to allow passageof air only in the direction from the interior storage space 100 of thechill bag 20 to the surrounding environment.

Hence, the cylinder containing pressurized carbon dioxide gas mayinteract with the chill bag 20 such that when a grocery packagecomprising frozen food is transported in said interior storage space thegrocery bag is adapted to minimize or prevent entry of air from theenvironment into the interior storage space (100) by providing acontrolled flow of gaseous carbon dioxide from the interior storagespace to the environment. This solution may advantageously furtherminimize or prevent the occurrence of condensation within the interiorstorage space (100).

According to an embodiment, cylinder containing pressurized carbondioxide may be kept in a freezer at a temperature of about −18° C.(degrees Centigrade). The carbon dioxide pressure in the pressurizedcylinder may then be about 18 bar. In this manner, the low initialtemperature pressurized cylinder will also contribute to maintaining afrozen or chilled state of any grocery package comprising frozen foodbeing transported in the interior storage space 100 of the chill bag 20.According to an embodiment, the pressurized carbon dioxide cylinder maycontain e.g. 2 kg of carbon dioxide at 0.75 kg of carbon dioxide perlitre of cylinder volume. According to another embodiment, thepressurized carbon dioxide cylinder may contain carbon dioxide at 0.67kg of carbon dioxide per litre of cylinder volume. According to anembodiment the pressurized carbon dioxide cylinder may contain less than0.5 kg of carbon dioxide at a filling level of less than 0.75 kg ofcarbon dioxide per litre of cylinder volume. According to an embodimentthe pressurized carbon dioxide cylinder may initially contain less than0.5 kg of carbon dioxide at a filling level of less than 0.67 kg ofcarbon dioxide per litre of cylinder volume. One or several pressurizedcarbon dioxide cylinders may be used simultaneously in the interiorstorage space 100 of the chill bag 20, dependent on duration of theperiod of time it is desired to keep the interior storage space 100 atfreezing temperatures.

According to yet another embodiment of the means for cooling theinterior of the bag, there is provided an ice pack for retaining afrozen temperature for an extended period of time. According to anembodiment of the cooling means, the ice pack may comprise a sachetcontaining a gel that can be frozen and that retains a frozentemperature for an extended period of time. According to an embodiment,an ice pack may comprise a sachet made of PE material, and the gelfilled sachet may have a weight of about 100 grams (0.1 kg). One orseveral ice packs may be used simultaneously in the interior storagespace 100 of the chill bag 20, dependent on duration of the period oftime it is desired to keep the interior storage space 100 at freezingtemperatures.

A Container Production Method

FIG. 28A shows a flowchart of a method 1300 for providing a carrier bag.The method 1300 starts with step 1301. In step 1301 a carrier bag isprovided, wherein said carrier bag has a carrier bag enclosure formed bya front wall panel S1A, a back wall panel S1B, two mutually opposingside wall panels S2A, S2B. Said carrier bag further has a substantiallyrectangular bottom portion BP. Said wall panels and said bottom portionBP of said carrier bag cooperate to form said enclosure. A portion ofsaid wall panels facing away from said bag bottom comprises a closableenclosure opening. After step 1301 the method 1300 ends.

FIG. 28B shows a flowchart of a method 1302 for providing a carrier bag.The method 1302 starts with step 1303. In step 1303 a collapsiblecarrier bag is provided, wherein said collapsible carrier bag has acollapsed state for enabling transportation of the carrier bag in asubstantially flat state, and an expanded state for transporting fooditems in a carrier bag enclosure which, in the expanded state of thecarrier bag, has a volume larger than 10 litres. Said carrier bagfurther can have a front wall panel S1A, a back wall panel S1B, twomutually opposing side wall panels S2A, S2B. Said carrier bag furthercan have a substantially rectangular bottom portion BP. Said wall panelsand said bottom portion BP of said carrier bag can cooperate to form anenclosure. This enclosure can be a carrier bag enclosure. A portion ofsaid wall panels facing away from said bag bottom can comprise aclosable enclosure opening.

FIG. 29 shows a method 1305 for providing a transport container. Saidtransport container can be a collapsible carrier bag.

The method 1305 will be illustrated in several examples which can beseen in FIGS. 36-46. FIGS. 36, 38, and 39 show examples ofpre-determined patterns. The pre-determined patterns there can then beformed and folded to provide a bag as will be described in thefollowing. In FIGS. 36, 38, and 39 solid lines show the outer borders ofthe pre-determined patterns and possible cuts in these patterns. In theother figures out of FIGS. 36-46, solid lines show the borders of thebag, or the bag-to-be respectively, or parts thereof, as seen from theviewing direction. In the three-dimensional views, solid lines can alsoshow lines where the bag or the bag-to-be has been folded. The dashedlines show possible folding edges in FIGS. 36-44. In FIGS. 48-49 dashedlines show elements or parts of elements which are covered by anotherelement when seen in the viewing direction. The areas delimitated bydotted lines in FIGS. 36-44 show areas which are described in thefollowing. These areas might be delimited by folding edges and/orborders of a sheet or other physical borders. These areas might,however, also be thought areas which do not necessarily have physicalborders, as can for example be seen by the horizontal lines of thetriangles 4030 a, 4030 b, 4030 c, 4030 d in FIG. 36. It should beunderstood that the dotted lines delimitating these areas are basicallyalways drawn slightly outside the areas which they should delimit in thefigures. This is to make the dotted lines visible in the figures, asthey otherwise often might be covered by solid lines and/or dashedlines.

The half dashed lines in FIG. 37A-37N show some lines along which thebag or the bag-to-be has been folded and which are covered by otherelements when seen in the viewing direction. All figures out of FIGS.36-46 are front view, except FIGS. 37F, 37H, 37J, 37L, and 37N which areelevated views of the bag, or the bag-to-be and thus provide athree-dimensional view. FIG. 41 is another example and shows a side viewin the viewing direction D of FIG. 40. The side view is, however, of adifferent state of the part of the bag which is shown in FIG. 40. Thiswill be explained in more detail later on.

FIGS. 37A-N show possible steps of how the pre-determined pattern fromFIG. 36 can be formed and folded to arrive at a bag. The bag can be aflattened bag according to the invention. The figures are in a possiblechronological order, where the elevated views correspond to the frontviews above them. FIG. 37N is an alternative to what is shown in FIG.37F. One of the big differences between FIG. 36 and FIG. 38 are saidtriangles 4030 a, 4030 b, 4030 c, 4030 d which are not present in FIG.38. The pattern in FIG. 38 could, however be formed and folded in acorresponding way as is shown in FIG. 37A-37M when one would remove thetriangles from these figures. Since the triangles are well visible inFIG. 37A-37M and it would be clear how to fold the pattern when it doesnot have triangles, an explicit sketch of the folding procedure of FIG.38 is omitted.

In FIG. 37A-37N, only examples of the most important folding edges forthe current steps of the method 1305 are shown for not overloading thefigures. These shown folding edges correspond preferably to the foldingedges in FIG. 36. The dashed arrows indicate the directions towardswhich areas along the shown folding edges can be folded in preferredexamples. Straight solid arrows without reference numbers showdirections in which the bag or the bag-to-be can be pulled or pushed,depending on the direction of the arrows.

When looking at FIG. 36 or FIG. 38, the area which is delimitated by theuppermost horizontal solid line and by the folding edges F3 a, F3 c, andF4 a can at the end of method 1305 form the front panel S1A of the bag.The area which is delimitated by the lowermost horizontal solid linesand the folding edges F3 b, F3 d, and F4 b can at the end of method 1305form the back panel S1B of the bag. The two areas which are delimitatedby the folding edges F6 on the left side of the figure, F3 a, F4 a, andby the uppermost horizontal line, respectively by the folding edges F6on the left side of the figure, F3 b, F4 b, and by the lowermosthorizontal line can at the end of method 1305 form one side panel S2A ofthe bag. The two areas which are delimitated by the folding edges F6 onthe right side of the figure, F3 c, F4 a, and by the uppermosthorizontal line, respectively by the folding edges F6 on the right sideof the figure, F3 d, F4 b, and by the lowermost horizontal line can atthe end of method 1305 form another side panel S2B of the bag. Thebottom portion BP can at the end of method 1305 be formed by the areawhich is delimitated by the folding edges F4 a, F4 b, and the twovertical folding lines of which the folding edges F3 a and F3 b, and F3c and F3 d, respectively, are part of.

In FIG. 39 the front panel S1A, the back panel S1B, and the side panelsS2A, S2B can at the end of the method 1305 be delimitated on one side bythe folding edge F4′ and on another side by the leftmost solid verticalline in the figure. The front panel S1A can further be delimitated bythe folding edge F3 a and by the uppermost solid horizontal line of thefigure. The back panel S1B can further be delimitated by the foldingedges F3 b and F3 c. One side panel S2A can further be delimitated bythe folding edges F3 a and F3 b. Another side panel S2B can further bedelimitated by the folding edges F3 c and F3 d. The area delimitated bythe folding edge F4′, by the leftmost solid vertical line, by theuppermost horizontal line, and by the lowermost horizontal line can bepart of the bottom portion BP of the bag. The outer portions of thebottom portion can at the end of method 1305 preferably be constitutedby the folding edge F4′. In one example the bottom portion BP will atthe end of method 1305 have a substantially rectangular shape with thefour sides of the rectangular shape being constituted by the section ofF4′ between the uppermost horizontal solid line and folding edge F3 a,by folding edge F3 a and folding edge F3 b, by folding edge F3 b andfolding edge F3 c, and by folding edge F3 c and folding edge F3 d,respectively.

The method 1305 starts with step 1310.

In step 1310 a sheet is provided. The provided sheet may be asubstantially planar sheet of a multilayer material. Said substantiallyplanar sheet has a first sheet surface and a second sheet surface onopposite sides of the substantially planar sheet. The multilayermaterial comprises preferably a layer of kraft paper having asubstantially water vapour impermeable membrane bonded to at least oneside of the kraft paper layer. The method 1305 continues with step 1320.

In step 1320, said sheet is cut. The cut is done according to apre-determined pattern so that a resulting planar sheet has at least twoedges. Some examples of pre-determined patterns are given in FIGS.36-39.

In one example, the pre-determined pattern is substantially rectangular4210. An example is shown in FIG. 39. In one example, the pre-determinedpattern comprises a substantially rectangular base pattern 4010, 4110,further comprising at least one protrusion 4020, 4120 at or close to atleast one of the corners of the rectangular base pattern. In one examplesaid at least one protrusion 4020, 4120 is at least two protrusions 4020a, 4020 c; 4020 a, 4020 b; 4120 a, 4120 c; 4120 a, 4120 b; . . . In oneexample said at least one protrusion 4020, 4120 is at least fourprotrusions 4020 a, 4020 b, 4020 c, 4020 d; 4120 a, 4120 b, 4120 c, 4120d. In one example two protrusions are at or close to two corners of therectangular base pattern 4010, 4110. In one example four protrusions areat or close to the four corners of the rectangular base pattern 4010,4110. In one example said at least one protrusion 4020, 4120 comprisesat least one protrusion having a substantially rectangular form, forexample two protrusions 4020 a, 4020 c; 4020 a, 4020 b; 4120 a, 4120 c;4120 a, 4120 b; . . . or four protrusions 4020 a, 4020 b, 4020 c, 4020d; 4120 a, 4120 b, 4120 c, 4120 d having a substantially rectangularform. A shorter side of said protrusions 4020, 4120 is preferablyoriented parallel or at least substantially parallel to a long side ofthe substantially rectangular base pattern 4020, 4120. As a result thelong sides of said protrusions 4020, 4120 are preferably parallel or atleast substantially parallel to a short side of the substantiallyrectangular base pattern 4020, 4120. The long sides of the protrusions4020, 4120 are preferably much longer than the short sides of theprotrusions 4020, 4120. This is in one example for enabling forming ahandle of the protrusions 4020, 4120, as will be described later on inmore details. In one example the long sides are at least twice, thrice,four times, six times, or eight times as long as the short sides. Anexample is shown in FIG. 38. Examples of short sides in FIG. 36 and FIG.38 are W4020 b and W4120 b. Examples of long sides in FIG. 36 and FIG.38 are L4020 b and L4120 b. It should be understood that also the otherprotrusions 4020, 4120 in these figures have corresponding long andshort sides, which are however, not especially denoted in the figuresfor not overloading them.

Even other shapes of protrusions or base patterns are possible. In oneexample the protrusion has the shape of a rectangle 4020 with anattached triangle 4030. In one example one side of the triangle attachesthe longer side of the rectangle and another side of the triangleattaches the longer side of the base pattern. An example can be seen inFIG. 36. Such a pattern would allow a more convenient opening of the bagwhen in use. This can be seen in FIG. 37N, where such a bag has a largeropening on the top compared to the size of the bottom. This might makeit especially easy to put products in the bag. It has also the advantagethat the protrusion attaches to a side panel S2A, S2B, or another partof the bag-to-be, along a longer line than without a triangle. Thismight distribute lifting forces better between handle/and or closure andthe bag and thus increase the stability of the bag.

In one example the shape of a substantially rectangular base patternextends on its shorter sides into a bottle-like shape, i.e. a shapewhich narrows, and thus has a diameter which is shorter than the shortside of the substantially rectangular base pattern, and then extendsagain. After extending again it can have a diameter which is longer thanthe short side of the substantially rectangular base pattern.

In one example the pre-determined pattern comprises at least one or twoopenings 4510. This at least one or two openings 4510 have preferablysuch a size that the four fingers of a human hand, preferably of agrown-up person, easily can get through at least one or two of theseopenings. The openings 4510 are then intended to provide the handle4520, 4530 when the carrier bag is used.

In one example the pre-determined shape comprises two additionalrectangular or substantially rectangular shapes 4040.1, 4040.2; 4140.1,4140.2 which are attached to the substantially rectangular base pattern4010, 4110. The two additional rectangular shapes 4040.1, 4040.2;4140.1, 4140.2 preferably have long sides 4040.1L, 4040.2L; 4140.1L,4140.2L which are equal or less than half of a long side of therectangular base pattern 4010, 4110. The two additional rectangularshapes 4040.1, 4040.2; 4140.1, 4140.2 are preferably oriented in such away that one of their long sides 4040.1L, 4040.2L; 4140.1L, 4140.2Lattaches to one of the long sides 4010 a, 4010 b; 4010 c, 4010 d; 4110a, 4110 b; 4110 c, 4110 d of the rectangular base pattern 4010, 4110each. The two additional rectangular shapes 4040.1, 4040.2; 4140.1,4140.2 are preferably also situated in such a way that at least half4010 b, 4010 d, 4110 b, 4110 d of each long side 4010 a, 4010 b; 4010 c,4010 d; 4110 a, 4110 b; 4110 c, 4110 d of the rectangular base pattern4010, 4110 is not covered by the two additional rectangular shapes4040.1, 4040.2; 4140.1, 4140.2. The not-covered half 4010 b, 4010 d,4110 b, 4110 d of each long side of the rectangular base pattern 4010,4110 is preferably connected and thus not intercepted by one of the twoadditional rectangular shapes 4040.1, 4040.2; 4140.1, 4140.2.

The pre-determined pattern is preferably arranged in such a way that anoverlap 4050, 4150, 4250 will be provided in step 1340. This overlap4050, 4150, 4250 will be constituted by a first overlap area 4050 a,4050 c, 4050 e, 4050 g; 4150 a, 4150 c; 4250 a and a second overlap area4050 b, 4050 d, 4050 f, 4050 h; 4150 b, 4150 d; 4250 b. The firstoverlap area 4050 a, 4050 c, 4050 e, 4050 g; 4150 a, 4150 c; 4250 a ispreferably on the first sheet surface and the second overlap area 4050b, 4050 d, 4050 f, 4050 h; 4150 b, 4150 d; 4250 b preferably on thesecond sheet surface. The first and the second overlap area arepreferably equal in size. One example of how an overlap will be providedis given in step 1330. In another example, said two additionalrectangular shapes 4040.1, 4040.2; 4140.1, 4140.2 are one part of theoverlap which is referred to in step 1340. The first sheet surface partsof the two additional rectangular shapes 4040.1, 4040.2; 4140.1, 4140.2are, for example, a first overlap area 4050 a, 4050 c; 4150 a, 4150 c.

After step 1320 an optional step 1331 and/or an optional step 1330 isperformed. In step 1330 said sheet is formed or folded into asubstantially tubular shape. The tubular shape is preferably such thatthe at least two edges overlap so as to allow a first overlap area 4250b of the first sheet surface to meet a second overlap area 4250 a of thesecond sheet surface. The first sheet surface forms then an interiorsurface of the-bag-to-be. It should be understood that in anotherexample the reference 4250 a could denote the first overlap area and thereference 4250 b the second overlap area. Performing a forming orfolding into a tubular shape can give the advantage that only one firstoverlap area 4250 b and only one second overlap area 4250 a are needed,thus only requiring a small number of production steps when these areasare attached to each other.

In step 1331 said sheet is folded. In one example said folding isperformed in such a way that substantial parts of the base patternoverlap each other. In one example, at least 60% of the area of the basepattern overlaps each other. In one example, the amount of the area ofthe base pattern which overlaps each other is at least 70%, at least80%, at least 90%, or at least 95%. In case the pre-determined shape issubstantially rectangular 4210 or has a substantially rectangular basepattern 4010, 4110, the sheet is preferably folded along a line F1 whichis parallel or at least substantially parallel to the short sides of therectangular shape 4010, 4110, 4210. Said line F1 is preferablyequidistant or at least substantially equidistant from the short sidesof said rectangular shape 4010, 4110, 4210. In one example the foldingis performed in such a way that approximately half of the rectangularbase pattern 4010, 4110 covers the other half of the rectangular basepattern 4010, 4110. The folding is preferably done in such a way that apart of the first sheet surface faces to another part of the first sheetsurface. An example of the result of such a folding is given in FIG. 37Aand FIG. 37B.

The step of folding can also comprise providing folding edges on thebase pattern 4010, 4110. In one example, when the pre-determined patterncomprises said two additional rectangular shapes 4040.1, 4040.2; 4140.1,4140.2, folding edges F2 are provided basically where these twoadditional rectangular shapes 4040.1, 4040.2; 4140.1, 4140.2 attach tothe rectangular base pattern 4010, 4110. Further examples of foldingedges which can be provided are described in relation to step 1350 or tostep 1360. It should be understood that the kind of folding edges beingdescribed there easily could be provided already in step 1331.

After the optional steps 1330 and/or 1331 the step 1340 is performed.

In step 1340 the first overlap area 4050 a, 4050 c, 4050 e, 4050 g; 4150a, 4150 c; 4250 a is attached to the second overlap area 4050 b, 4050 d,4050 f, 4050 h; 4150 b, 4150 d; 4250 b. An example is shown in FIG. 37B.In case the pre-determined base pattern comprises said two additionalrectangular shapes 4040.1, 4040.2; 4140.1, 4140.2, the second overlaparea 4050 b, 4050 d, 4050 f, 4050 h; 4150 b, 4150 d; 4250 b can beconstituted a part of the second sheet surface of the rectangular basepattern 4010, 4110, which part has approximately the same shape as saidtwo additional rectangular shapes 4040.1, 4040.2; 4140.1, 4140.2. Saidpart is preferably constituted by the part of the rectangular base shape4010, 4110 which can be achieved when mirroring said two additionalrectangular shapes 4040.1, 4040.2; 4140.1, 4140.2 at the long sides4040.1L, 4040.2L; 4140.1L, 4140.2L of the rectangular base pattern 4010,4110 and on said line F1 in step 1331. However, many other possibilitiesare possible of what can be the first and the second overlap area. Theattaching is in one example done by gluing. In one example the attachingis done by melt-bonding.

In one example, parts or the whole of the protrusions 4020 a, 4020 b,4020 c, 4020 d; 4120 a, 4120 b, 4120 c, 4120 d are attached on overlapareas. In one example, some of the protrusions, for example 4020 a, 4020b; 4120 a, 4120 b have a different length than the other protrusions,for example 4020 c, 4020 d; 4120 c, 4120 d. The protrusions with thelonger length can then provide a first overlap area and the protrusionswith the shorter length can then provide a second overlap area. Thefirst overlap area corresponds in one example to the area formed by thelength difference between the protrusions with the longer and theshorter length. The second overlap area can in this example correspondto an area of corresponding size at the protrusions with the shorterlength. This is described in more detail in relation to 43. After step1340 the method continues with step 1350.

In step 1350 the sheet is formed or folded so as to form outer surfacesof the transport container. Said outer surfaces are in one example afront panel S1A, a back panel S1B, and two mutually opposing side panelsS2A, S2B of the-bag-to be. An example is shown in FIG. 37C-37F. Itshould be understood that folding edges corresponding to those in FIG.37C and FIG. 37D are present on the other side of the bag-to-be. Thesecorresponding folding edges are shown in FIG. 36. The correspondingedges are preferably folded as well, as is indicated by the dashedarrows in FIG. 37C and FIG. 37D which indicate preferably differentfolding directions for the folding edges shown in the figures and thecorresponding folding edges on the other side of the bag-to-be. FIG. 37Nis an alternative example of how FIG. 37F could look like. In FIG. 37F,for example, the protrusions could have been directly attached to eachother, for example for providing a very stable connection betweenprotrusions and the side panels of the bag. In FIG. 37N the triangularprotrusions are not attached to each other, except via the previousdescribed overlap areas. This allows a greater opening of the bag. Theouter parts of the protrusion which have a substantially rectangularshape might well be attached to each other also in FIG. 37N. Similaralternatives as between FIG. 37F and FIG. 37N could easily be presentedfor FIGS. 37H, 37J, and 37L, but are not shown here since the differencein shape of the bag would correspond to the difference in shape of thebag between FIG. 37F and FIG. 37N. In one example the forming or foldingof the sheet is done in such a way that a substantially cuboid-likebase-form is achieved. In one example this is done in such a way that asubstantially parallelepiped-like base-form is achieved. The surfacearea of the parallelepiped-like base-form comprises preferably foursubstantially rectangular areas. These four substantially rectangularareas are on four different sides of the parallelepiped-like base-form.In the following we will refer to the parallelepiped-like base-form asthe cuboid is a special form of it.

The front panel S1A and the back panel S1B of the bag-to-be arepreferably two mutually opposing sides of the parallelepiped. The twomutually opposing side panels S2A, S2B of the-bag-to be are preferablytwo mutually opposing sides of the parallelepiped. In one example thefront panels S1A, the back panel S1B, and the two mutually opposing sidepanels S2A, S2B have substantially rectangular shapes. One side of eachside panel S2A, S2B attaches to a side of the front panel S1A and oneside of each side panel S2A, S2B attaches to a side of the back panelS1B. Preferably, the attaching sides between the side panels S2A, S2Band the front panel S1A and the back panel S1B comprise folding edgesF3, for example folding edges F3 a, F3 b, F3 c, and F3 d.

In one example a mid-fold F6 is provided in each of the side panels S2A,S2B. The mid-fold F6 of a side panel runs in one example in a directionsubstantially parallel to a fold where that side panel S2A, S2B connectswith the front panel S1A, for example fold F3. In one example themid-folds F6 are provided at a later step, for example at step 1370.

In one example no bottom and no closure are provided yet. Thus twoopposing sides of the parallelepiped-like base-form are in one examplenot covered by the sheet in step 1350.

In another example, especially if a folding along said line F1 in step1330 was performed, only one side of the parallelepiped-like base-formis not covered by the sheet in step 1350. In that case the sheet isfolded along a folding edge F4 which is substantially parallel to saidline F1 in step 1330. This folding edge F4 is on all four panels of thebag to be. Although the folding edge F4 usually will be continuous orclose to continuous when the providing of the bag is finished, thefolding edge F4 might not be continuous at this point yet. Thus, thefolding edge F4 does in one example comprise two folding edges F4 a andF4 b. The folding is preferably in such a way that the folding istowards the first sheet surface at the front panel S1A and the backpanel S1B. The folding is preferably in such a way that the folding istowards the second sheet surface along the side panels S2A, S2B. Afterthat folding, a bottom panel will be provided in addition to the otherfour panels S1A, S1B, S2A and S2B. For achieving that, preferably fouradditional folding edges F5, for example F5 a, F5 b, F5 c, and F5 d, areprovided. These four additional folding edges F5 are preferably towardsthe first sheet surface. These four additional folding edges preferablystart from the points where the folding edge F4 intercepts the foldingedges F3 and end at an end point of the line F1. The end point of lineF1 is preferably the end point which is closest to the start of therespective folding edge F4.

The method can continue with the optional step 1360.

In step 1360 a bottom is created. An example is given in FIG. 37E-FIG.37J. The creation of the bottom is done in by forming or folding themultilayer sheet so as to create a bottom portion BP of the bag-to-be.The bottom portion BP connects the panels S1A, S1B, S2A, and S2B.Thereby a semi-manufactured bag is obtained, which in an expanded stateexhibits four wall panels, a bag bottom panel and a bag opening. The bagopening is preferably formed by an opening rim of the four wall panelsfacing away from the bag bottom. If, for example, a transport containeraccording to FIG. 32A and FIG. 32B is provided, a creation of the bottommight not be necessary.

In one example, the forming of the bag bottom comprises folding thesheet along a folding edge F4′, F4 which is substantially perpendicularto the folding edges F3. In one example, at least some of the foldingdescribed here, is already performed at an earlier step, for example atstep 1330. This could, for example, be a folding along the folding edgeF4.

In one example the folding along the folding edge F4′ is towards thefirst sheet surface. Further, additional four folding edges F5′, forexample F5 a′, F5 b′, F5 c′, and F5 c′ are provided. These four additionfolding edges F5′ preferably start at the interception of the foldingedge F4′ with the folding edges F3. These four additional folding edgesF5′ preferably enclose an angle of substantially 45 degrees to thefolding edge F4′. These four folding edges are situated on the bottomportion BP. In one example, after folding along the four folding edgesF5, F5′, overlapping areas due to that folding are attached, for examplevia bonding or gluing.

In one example, the distance between the folding edge F4′ and a bottomedge of the sheet is larger than the length of the folding edge F4′ onthe side panels S2A, S2B. By that it is assured that there will beoverlapping portions of the parts of the sheets which attach to thefront panel S1A and the back panel S1B and which are folded along thefolding line F4′. These overlapping portions are preferably attached,for example via bonding or gluing.

In one example, in case a folding along the folding edge F4 has beenpreviously performed towards the second sheet surface, this folding isnow performed in the reverse direction. After that a substantiallyrectangular bottom portion BP is achieved. Overlapping portions due tothe folding in the reverse direction are in one example attached, forexample via bonding or gluing.

Creating a bottom of a pre-determined pattern like in FIG. 36 or in FIG.38 has the advantage that there will be no gap at the bottom of the bag.As can be seen from these figures, the bottom portion BP comprises aconnected substantially rectangular part of the sheet which covers thewhole bottom portion BP. This is in contrast to the bottom portion froma pre-determined pattern like in FIG. 39, where one first has to overlapsome parts of the pre-determined pattern to cover the whole bottomportion. An advantage of having no gap in the bottom portion is that noway is provided for moisture from the ground to enter the space of thebag through the bottom portion BP. Further, an air exchange will beprevented as well. In one example, creating the bottom area comprisesadding additional elements to the bag to be. This additional element canfor example be an insulator device. The insulator device can comprise apiece of material being shaped and adapted to provide cellular aircushions so as to reduce heat transfer through said bottom panel BP.According to an embodiment, the insulator device comprises paper and asubstantially water vapour impermeable material. In one embodiment thesubstantially water vapour impermeable material of the insulator devicecomprises at least one layer of a polymer material. The insulator devicecan, for example, be put in the bag through the bag opening. Theinsulator device can have substantially the same from and size as thebottom panel BP. In such a way it can cover the whole bottom panel BPafter inserting it. This could make the bag and/or the insulator deviceto withstand a damp or wet environment without absorbing water. Theinsulator device can be attached to the bottom panel BP from the insideof the bag. The insulator device can also be put loosely on the bottompanel BP from the inside of the bag. The insulator device can also beattached to the bottom panel BP from the outside of the bag.

The method continues with step 1370.

In step 1370 the semi-manufactured bag is collapsed. An example is givenin FIG. 37K-M. This collapsing is done by folding along a folding edgewhere the front panel S1A connects with the bottom panel, for examplealong folding edge F4. In case not being provided before, a mid-fold F6in each of the side panels S2A, S2B can be provided, the mid-fold F6 ofa side panel running in a direction substantially parallel to a foldwhere that side panel S2A, S2B connects with the front panel, forexample F3.

In one example the collapsing step is performed such that a side panelmid-fold F6 is bent outwardly so as to cause a foremost interior surfaceportion of that side panel to face a backmost secondary interior surfaceportion of that side panel. In another example the collapsing step isperformed in such a way that a side panel mid-fold F6 is bent inwardlyso as to cause one interior surface of each side portion to face aninterior surface of the front panel, and to cause another interiorsurface of each side portion to face an interior surface of the backpanel.

In a preferred example, two or four collapsing folding edges F7, F7′,for F7 a and F7 b, or F7 a′, F7 b′, F7 c′, and F7 d′ are provided instep 1370 or a previous step such as step 1331, step 1350, or step 1360.These collapsing folding edges start preferably at the interceptionsbetween the folding edge F4, F4′ and the folding edges F3. If only twocollapsing folding edges F7 are provided, these two collapsing foldingedges F7 preferably start either both at said interceptions at the frontpanel, or at said interceptions at the back panel. Two collapsingfolding edges F7 are preferred when the side panel mid-fold F6 is bentoutwardly, and four collapsing folding edges F7′ are preferred when theside panel mid-fold F6 is bent inwardly.

The collapsing folding edges F7, F7′ enclose an angle of substantially45 degrees with the folding edge F4, F4′, and are situated on the sidepanels S2A, S2B. The collapsing folding edges F7, F7′ stop at theinterceptions with the side panel mid-fold F6. The bag-to-be is foldedalong the collapsing folding edges F7, F7′. In one example the foldingalong the collapsing folding edges F7 is outwardly. In another example,the folding along the collapsing folding edges F7′ is inwardly.

Preferably, an additional collapsing folding edge F8, F8′ is provided.What has been said before regarding that the collapsing folding edgesF7, F7′ can be provided at an earlier step applies to the additionalcollapsing folding edge F8, F8′ as well. This additional collapsingfolding edge F8, F8′ starts at a point where one of the collapsingfolding edges F7, F7′ stops at a side panel mid-fold F6. The additionalcollapsing folding edge F8, F8′ is substantially parallel to the foldingedge F4, F4′ and stops at a point where another of the collapsingfolding edges F7, F7′ stops at the other side panel mid-fold F6. Theadditional folding edge F8, F8′ will thus be situated either on thefront panel S1A or on the back panel S1B. When collapsing the bag, thebag is folded along the additional collapsing folding edge F8, F8′. Thefolding along the additional collapsing folding edge F8 is preferably insuch a way that the outer part of the front panel S1A or the back panelS1B on both sides of the additional collapsing folding edge F8, F8′ andclose to said additional collapsing folding edge F8, F8′ face eachother. In case the additional folding along the collapsing folding edgeF7 is outwardly, the outer part of the side panels S2A, S2B on bothsides of the additional collapsing folding edge F8 and close to saidadditional collapsing folding edge F8 preferably face each other. Incase the additional folding along the collapsing folding edge F7′ isinwardly, the outer part of the side panels S2A, S2B on both sides ofthe additional collapsing folding edge F8′ and close to said additionalcollapsing folding edge F8′ are preferably turned away from each other.

The method continues with step 1380.

It should be understood that the folding edges described so far inrelation to method 1305 are not necessarily exhaustive. Instead,possible additional folding edges can easily be provided in theaforementioned steps.

In the optional step 1380 a closure and/or a handle is provided. In oneexample the provided handle is a handle for allowing a user to carry thetransport container. In one example, the handle is associated with thefront panel S1A and the back panel SIB. The handle and/or the closurecan be part of the provided sheet. In one example, the handle is part ofthe pre-determined pattern which is used in step 1320 for cutting. Thatpre-determined pattern can for example have openings 4510 as has beendescribed before. An example is given in FIG. 42C, where a handle 4520is part of the pre-determined pattern. The shown form of the handle 4520is only an example. Any other form of a handle, for example the handle4530 in FIG. 42A, could also be used and would thus provide an openingsimilar to the opening 4510 in FIG. 45C. As an example, when startingwith a sheet as shown in FIG. 39, the handle 4520 as shown in any ofFIG. 42A-C would be rotated clockwise by 90 degrees and situated on theright side of the shown rectangular sheet, for example in the middle ofthe right side of the front panel S1A to-be and/or the back panel S1B tobe. The handle and/or the closure can also comprise additional elementswhich are attached to the sheet.

The providing of the handle and/or a closure is quite independent of howthe other parts of transport container have been provided. It shouldthus be understood that everything which is discussed in relation to thehandle and/or the closure can be easily interchanged and/or combinedbetween different embodiments and/or examples of transport containerswhich are described in this disclosure.

Different kinds of providing the handle and/or the closure will soon bedescribed. The method 1305 preferably ends after the optional step 1380.

Other methods than 1305 are possible as well for providing a transportcontainer. According to one embodiment, the container 20 may be shapedin such a manner that plural containers 20 can be piled on top of eachother in a space conservative manner. An example of such a space savingshape is a cone shaped container. An example is shown in FIG. 32A andFIG. 32B. In FIG. 32A a cone shaped container is shown in its expandedstate in an elevated view. In FIG. 32B a cone shaped container is shownin its flat state. In this manner plural cone shaped containers may bestacked by placing one cone container on top of the other such that thespace required for storing ten containers is only slightly larger thanthe space required for storing one cone container. An example is shownin FIG. 33A and FIG. 33B, where three cone shaped containers are stackedin an expanded state and in a substantially flat state, respectively.FIG. 33A and FIG. 33B are only for illustrating the principle. Inpractice, such containers might be stacked more tightly than in thefigures.

According to an embodiment the container may be shaped as a truncatedcone such that there is provided a substantially flat bottom area insidethe truncated cone container, the cone wall leaning outwardly from thebottom area. An example is shown in FIG. 34A and FIG. 34B, where such acontainer is shown in an elevated view and in a flat view, respectively.In this manner the truncated cone container may also be stacked or piledso that one container fits inside the next substantially identicalcontainer, thus enabling transport of a large number of stackedcontainers within a very small space. This feature of the containeradvantageously contributes to enable transporting containers 20 in bulkat a low cost.

FIG. 30 shows a flowchart about a method 3200 of providing a handle. Themethod 3200 is in one example part of step 1380 of method 1305. In oneexample, the method 3200 is performed several times in step 1380, forexample two times. The method 3200 comprises the step 3210.

In step 3210 a handle is provided for the transport container. In oneexample, the handle is attached to the transport container, for examplevia gluing or bonding. In the following we will describe providing ahandle for a carrier bag. It should be understood, however, that thesame applies for other kinds of transport containers. In one example,the handle is attached to the interior side of the carrier bag. This isin one example done by attaching the handle to the first sheet surface.In one example, the handle is attached to the outer side of the carrierbag. This is in one example done by attaching the handle to the secondsheet surface. The handle is preferably attached to the front panel S1Aand/or the back panel S1B. It is, however, in principle possible toattach the handle to a side panel S2A, S2B as well. The handle can havea U-shape as comparable to the handle 4530 in FIG. 42A. The handle canhave a cornered U-shape as comparable to the handle 4520 in FIG. 42B.Any other shape might work as well. The handle might be thicker than thesheet of the bag for providing more strength. The handle might be of thesame material as the sheet. The handle might comprise several layers ofthe sheet of the bag. These several layers could be provided by foldingone layer. When attaching a handle similar to the ones shown in FIG.42A-B, the two parallel vertical sections are preferably longer thanindicated in FIG. 42A-B. Said longer parts of the two parallel sectionsare then preferably attached to the sheet. In one example an optionalstep 3220 is performed after step 3210. The additional step is, in oneexample, preferable when attaching a handle similar to the ones shown inFIG. 42A-B for increasing the robustness of the carrier bag when carriedin the handle.

In one example a handle as described in WO 2014/187582 A1 is provided.WO 2014/187582 A1 is therefore included in total by reference in thisdisclosure. An example of such a handle is shown in FIGS. 43A and 43B.In this example, a handle 4610 and a support sheet 4620 are preferablecomplementary in their shape. In a flat state of the carrier, as shownin FIG. 43A, the handle 4610 and the support sheet 4620 are arranged ina flattened state as well. In this flattened state the handle 4610 andthe support sheet 4620 are oriented so that the handle 4610 is situatedat its complementary part of the support sheet 4620. The thickness ofthe combination of the handle 4610 and the support sheet 4620 will thenequal the thickness of the handle 4610 and/or the support sheet 4620alone. In step 1310 the support sheet 4620 is in one example attached tothe front panel S1A and/or the back panel S1B. The handle 4610 isattached to the support sheet via a folding edge 4630. Preferably, thehandle is not directly attached to the front panel S1A and/or the backpanel S1B. This allows a user to fold up and use the handle when the bagis in an expanded state, as is shown in FIG. 43B.

In one example the provided handle is a string 4710. FIG. 44 is anillustration of a string as a provided handle. The string 4710 can, forexample, be attached close to the upper side 4060A, 4060B; 4160A, 4160B;4260A, 4260B; 4660; 4760 of the front panel S1A and/or the back panelS1B. The term upper side relates in one example to the side of the frontpanel S1A and/or the back panel S1B which is upwards when the bag is inan upright position. The string 4710 can be placed substantiallyparallel to the upper side 4060A, 4060B; 4160A, 4160B; 4260A, 4260B;4660; 4760 of the front panel S1A and/or the back panel S1B. The string4710 can have a length that exceeds the width of the upper side 4060A,4060B; 4160A, 4160B; 4260A, 4260B; 4660; 4760 of the front panel S1Aand/or the back panel S1B. The string 4710 can have a length thatexceeds twice the width of the upper side 4060A, 4060B; 4160A, 4160B;4260A, 4260B; 4660; 4760 of the front panel S1A and/or the back panelS1B. In one example, the string 4710 is arranged to provide a closedloop 4713. This can, for example, be done by providing a knot 4720between the two ends of the string 4710. The string can then be arrangedsubstantially parallel to the upper side 4060A, 4060B; 4160A, 4160B;4260A, 4260B; 4660; 4760 of the front panel S1A and/or the back panelS1B, so that the looped string has two portions 4711, 4712 of the string4710 substantially parallel and preferably close to each other at theupper side 4160A, 4160B; 4260A, 4260B; 4660; 4760 of the front panel S1Aand/or the back panel S1B. When the length of the string exceeds twicethe width of the upper side 4160A, 4160B; 4260A, 4260B; 4660; 4760 ofthe front panel S1A and/or the back panel S1B, two loops 4714, 4715 willbe provided at each side of the upper side 4160A, 4160B; 4260A, 4260B;4660; 4760 of the front panel S1A and/or the back panel S1B. The lengthof the string is preferably so long that said two loops 4714, 4715 canbe extended by moving the string which forms said two loops 4714, 4715,so that preferably at least a human hand, or at least the four fingersof a human hand can then grab through said two loops 4714, 4715.

In alternative embodiments only one if the loops 4714, 4715 is provided.In one embodiment the string is attached vertically to the front panelS1A and/or the back panel S1B. The material of the string is in oneexample cotton twine. In one example the string comprises plastics.

In one example a handle is provided by protrusions 4020 a, 4020 b, 4020c, 4020 d; 4120 a, 4120 b, 4120 c, 4120 d of the pre-determined basepattern. This is described in more detail in relation to FIG. 52A-C andFIG. 50A-C. In one example, said protrusions 4020 a, 4020 b, 4020 c,4020 d; 4120 a, 4120 b, 4120 c, 4120 d are not part of thepre-determined base pattern. Instead, these protrusions are separatestripes which are attached to the base pattern. This attaching can inprinciple be done at any stage during method 1305, but is preferablydone after step 1320. An advantage of attaching the stripes after thepre-determined base-pattern is cut is that the loss of material due tothe cut pattern is minimised. When, for example, looking at FIG. 38, onecould cut the basically rectangular base-pattern 4110, maybe incombination with the two additional rectangular shapes 4140.1, 4140.2out of one sheet of material. One could then cut out the protrusions4120 a, 4120 b, 4120 c, 4120 d separately and attach them to thebasically rectangular base-pattern 4110. One could also provide longstripes where the protrusions are the end portions of the stripe. In oneexample, a stripe goes from the left edge of protrusion 4120 a to theright edge of protrusion 4120 c. Such a stripe would thus also coverparts of the side portions S2A, S2B and of the front panel S1A whenattached to the rectangular base-pattern 4110. The corresponding appliesto the protrusions 4120 b and 4120 d. The attachment can be done of thefirst sheet surface of the pre-determined base-pattern or on the secondsheet surface of the pre-determined base-pattern. When discussing inrelation to FIG. 49a-c and FIG. 50A-C how a handle can be provided bythe protrusions 4020 a, 4020 b, 4020 c, 4020 d; 4120 a, 4120 b, 4120 c,4120 d it should thus be understood that the same applies to protrusions4020 a, 4020 b, 4020 c, 4020 d; 4120 a, 4120 b, 4120 c, 4120 d which arepart of the pre-determined base pattern, as does apply for protrusionswhich are achieved via attachment of stripes. It should also be notedthat said stripes do not necessarily have rectangular forms, but canhave different forms for providing different forms of protrusions whenattached to the pre-determined base pattern.

The method 3200 continues with an optional step 3220. In the optionalstep 3220 a reinforcement is provided. The provided reinforcement can bea reinforcement sheet. The reinforcement sheet can be substantiallyplanar. The reinforcement is preferably attached to the same side of thefront panel S1A and/or the back panel S1B as the handle. The attachingis, for example, done by gluing or bonding. The part of the handle whichis attached to the front panel S1A and/or the back panel S1B ispreferably situated between the front panel S1A and/or the back panelS1B and the reinforcement. In one example, the reinforcement attachesdirectly to parts of the handle and to the front panel S1A and/or theback panel S1B. In one example, the width of the reinforcement sheet islarger than the width of the handle. In one example, the width of thereinforcement sheet is at least 1.5 times the width of the handle. Thewidth of the reinforcement sheet is preferably not larger than the widthof the front panel S1A and/or the back panel S1B on which thereinforcement sheet is attached. One advantage when providing areinforcement sheet is that the lifting force can be distributed fromthe handle to a larger area of the front panel S1A and/or back panel S1Bthan the overlap between the handle and the front panel S1A and/or backpanel S1B. The reinforcement sheet has a certain height. This certainheight is preferably larger than the height of the overlap between thehandle and the front panel S1A and/or back panel S1B. In one example,the term overlap refers here to the area on which the handle is attachedto the front panel S1A and/or the back panel S1B.

In one example, the optional step 3220 is repeated. By doing this asecond reinforcement is provided. This second reinforcement haspreferably a larger area than the first reinforcement sheet. Whenreferring to the first reinforcement sheet here, it is intended thereinforcement sheet which was provided the previous time the step 3220was performed. Preferably the width of the second reinforcement sheet islarger than the width of the first reinforcement sheet. Preferably theheight of the second reinforcement sheet is larger than the height ofthe first reinforcement sheet. The second reinforcement sheet can thenbe attached to the first reinforcement sheet and the front panel S1Aand/or the back panel S1B. Preferably the second reinforcement sheetcovers a substantial part of the first reinforcement sheet, for exampleat least 80%, at least 90%, or at least 95%. The first reinforcementsheet is then in one example situated between the front panel S1A and/orback panel S1B and the second reinforcement sheet. One advantage whenproviding a second reinforcement sheet is that the lifting force can bedistributed from the first reinforcement sheet to a larger area of thefront panel S1A and/or back panel S1B than the overlap between the firstreinforcement sheet and the front panel S1A and/or back panel S1B.

The method 3200 can end after step 3220.

In FIG. 33 a flowchart of a method 3300 for providing closure means fora transport container is shown. The method 3300 is in one example partof step 1380 of method 1305. The method starts with step 3310.

In step 3310 at least one closure means is provided at the transportcontainer. In the following we will describe providing closure means fora carrier bag. It should be understood, however, that the same appliesfor other kinds of transport containers. In one example, the closuremeans comprises said one or more protrusions 4020 a, 4020 b, 4020 c,4020 d; 4120 a, 4120 b, 4120 c, 4120 d of the pre-determined basepattern. It is described in relation to FIG. 40 and FIG. 41 how theseprotrusions 4020 a, 4020 b, 4020 c, 4020 d; 4120 a, 4120 b, 4120 c, 4120d can form the closure means. It should be understood that what has beensaid above in relation to providing said protrusions 4020 a, 4020 b,4020 c, 4020 d; 4120 a, 4120 b, 4120 c, 4120 d via stripes which areattached to the pre-determined base pattern applies here as well. Inother words, what is described in relation to said protrusions 4020 a,4020 b, 4020 c, 4020 d; 4120 a, 4120 b, 4120 c, 4120 d appliesindependently of whether the protrusions are part of the pre-determinedbase pattern or whether they are attached to in at a later step. In oneexample, said stripes are thus attached to the pre-determined pattern asdescribed above.

In one example said provided closure means is a closure device. In oneexample, the provided closure device is integrated in a reinforcementsheet. In one example, said reinforcement sheet is the secondreinforcement sheet which has been described in relation to step 3220 ofmethod 3200. In one example, said reinforcement sheet is anotherreinforcement sheet than the second reinforcement sheet which has beendescribed in relation to step 3220.

In one example said closure device is a closure device 240 as describedin relation to FIG. 14-17. In one example, the closure device has afirst elongated closure element 250A and a second elongated closureelement 250B. The first and second elongated closure elements 250A,250B, respectively can have an upper section and a lower section. Thelower section is in one example attached to the bag-to-be. In oneexample, the lower section is attached to the front panel S1A and/or thebag panel S1B. This attaching is, for example, via gluing or bonding.The lower section can comprise a reinforcement sheet. The upper sectionis in one example not attached to the front panel S1A and/or the bagpanel S1B. The upper section of the first and the second elongatedclosure element can have complementary patterns. These complementarypatterns can be provided in such a way that the first and secondelongated closure elements can interact to provide a closing betweenthem, and thus a closing of the bag. The closing can, for example, becaused by a movable pressure device 280, also referred to as a “runner”,or a “slider”. Even a later opening of the bag can be provided by saidrunner/slider 280.

In the following, different kinds of attaching the closure device aredescribed in relation to FIGS. 45A-D. In these figures only one side ofthe bag is shown, for example the side of the front panel S1A. In apreferred example the other side of the bags looks similar, for examplethe side of the back panel S1B. Same elements which are covered byanother element are drawn in dashed lines. In FIGS. 45A and 45B handle4820 is attached to the outer surface of the front panel S1A and/or thebag panel S1B. In FIGS. 45C and 45B a handle 4820 is attached to theinterior surface of the front panel S1A and/or the bag panel S1B. Saidattaching can be directly or include some other elements in between thehandle 4820 and the outer and/or inner surface of the front panel S1Aand/or the back panel S1B. In FIG. 48 the handle 4820 is integrated inthe front panel S1A and/or back panel S1B as, for example, beingdescribed in relation to FIG. 42C. In FIGS. 45A-D a reinforcement sheet4810 is attached to the handle and to the same surface of the frontpanel S1A and/or the back panel S1B as the handle 4820 is attached to.Thus, in FIG. 45A and 45B the reinforcement sheet 4810 is attached tothe outer surface of the front panel S1A and/or the back panel S1B andcovers a lower part of the handle 4820. In FIGS. 45C and 45D thereinforcement sheet 4810 is attached to the inner surface of the frontpanel S1A and/or the back panel S1B and covers a lower part of thehandle 4820. In the shown examples, there is a vertical distance 4890between the reinforcement sheet 4810 and the upper side of the frontpanel S1A and/or the back panel S1B. In one example this distance iszero or basically zero. In another example, this distance is at leastone centimetre, for example 1 cm, 2 cm or 3 cm, 4 cm, or 5 cm. Arunner/slider 4880 or another element which can cause the actual closingis shown in FIG. 45A-E as well.

In the following, when referring to an elongated closure element, thiscould be the first or the second elongated closure element. In FIG. 45Aan elongated closure element 4870 a is attached on the outer side of thefront panel S1A and/or the back panel S1B. The attachment is done insuch a way that the handle is outside the elongated closure element 4870a, thus not intercepting a closing action by the runner/slider 4880. Theelongated closure element 4870 a has in one example a width which islonger than the width of the upper side of the front panel S1A and/orthe back panel S1B. This has the advantage that a first and a secondelongated closure element can be attached to each other at anoverlapping area outside the front panel S1A and/or the back panel S1B,thus providing an especially good closing of the transport containersince the air exchange will be well prevented at the corners of theupper side of the front panel S1A and/or the back panel S1B.

In FIG. 45B an elongated closure element 4870 b is attached on the innerside of the front panel S1A and/or the back panel S1B. Thus the handlewill automatically be outside the elongated closure element 4870 b, thusnot intercepting a closing action by the runner/slider 4880. Theelongated closure element 4870 a has preferably a width which issubstantially the width of the upper side of the front panel S1A and/orthe back panel S1B. Thus a good enclosing of the transport containerwill be provided.

In FIG. 45C an elongated closure element 4870 c is attached on the innerside of the front panel S1A and/or the back panel S1B. The attachment isdone in such a way that the handle is in between the elongated closureelement 4870 c and the front panel S1A and/or the back panel S1B, thusnot intercepting a closing action by the runner/slider 4880. Theelongated closure element 4870 c has preferably a width which issubstantially the width of the upper side of the front panel S1A and/orthe back panel S1B.

In FIG. 45D an elongated closure element 4870 c is attached on the innerside of the front panel S1A and/or the back panel S1B. The attachment isdone in such a way that the handle is in between the elongated closureelement 4870 d and the front panel S1A and/or the back panel S1B, thusnot intercepting a closing action by the runner/slider 4880. Theelongated closure element 4870 d has preferably a width which issubstantially the width of the upper side of the front panel S1A and/orthe back panel S1B. The difference between FIG. 45C and FIG. 45D is thatthe vertical distance of the lower part in FIG. 45D is larger than inFIG. 45C. In FIG. 45D the whole reinforcement sheet is covered by thelower part of the elongated closure element. This has the additionaladvantage that the attached lower side of the elongated closure elementprovides an additional barrier for air to prevent air exchange betweenthe inside and the outside of the bag when the bag is in a closed state.

In FIG. 45E an elongated closure element 4870 e is attached on the innerside of the front panel S1A and/or the back panel S1B. Since the handleis part of the sheet which provides the front panel S1A and/or the backpanel S1B, the handle is not intercepting a closing action by therunner/slider 4880. The elongated closure element 4870 e has preferablya width which is substantially the width of the upper side of the frontpanel S1A and/or the back panel S1B. The lower side of the lower part ofthe elongated closure element 4870 e is not indicated, but can in oneexample be like in FIG. 45C or in FIG. 45D.

In FIGS. 45A-E a runner/slider 4880 is shown. This is, however, in oneexample not required. Any of the elongated closure elements 4870 a, 4870b, 4870 c, 4870 d, 4780 e could have a first pattern 5010 on the sidewhich is faced to the interior of the bag. A corresponding elongatedclosure element which is situated at the panel which is opposite to thepanel shown panel in FIG. 45A-45E can have a second pattern 5020 on itsside which is faced to the interior of the bag. The second pattern 5020can be complementary to the first pattern 5010. By pressing together theelongated closure element on the front panel S1A and the back panel S1Bone could then make the first and the second pattern to interact in sucha way that their corresponding parts of the pattern are broughttogether. This can provide an attaching between the first 5010 and thesecond pattern 5020 due to a locking of these patterns by their form. Anexample of a side view of a first 5010 and a second pattern 5020 of theelongated closure element is shown in FIG. 47.

Another example of providing a closure element is shown in FIG. 46. Aclosure element 4910 is provided at the inner and/or outer side of thefront panel S1A and/or the back panel S1B. This closure element can havethe size of a stripe and has preferable substantially the width of theupper side of the front panel S1A and/or the back panel S1B. The closureelement 4910 can be attached to the front panel S1A and/or the backpanel S1B. The attaching can be done by gluing or bonding. The closureelement 4910 can be a glue strip. The closure element 4910 can be anadhesive tape. Thus, when pressing the front panel S1A to the back panelS1B, the glue strip and/or the adhesive tape can keep the front panelS1A and the back panel SIB close to each other, thus providing a closingof the transport container. In one example the front panel S1A and theback panel S1B are kept attached to each other by the closure element4910 once they touch each other via the closure element 4910. In oneexample the closure element 4910 is only at the front panel S1A or onlyat the back panel S1B. This might be enough for providing a closure ofthe bag via adhesive forces. The closure element 4910 can comprise anadditional strip of protection material (not shown in the figure). Thisstrip can have substantially the same size as the glue strip/theadhesive tape. The additional strip can be provided in such a way thatit has to be removed before allowing the glue strip/the adhesive tape toprovide its adhesive force between the front panel S1A and the backpanel S1B. This prevents the front panel S1A and the back panel S1B tostick permanently together when the transport container is in a flatstate.

In one example the closure element 4910 is on the outside of the frontpanel S1A and/or the back panel S1B. Assuming the closure element 4910being on the outside of the front panel S1A, the back panel S1B couldhave a larger vertical height than the front panel S1A. A folding edgecould be provided at the back panel S1B. The folding edge can besubstantially parallel to the upper side of the back panel S1B. Thefolding edge could be situated at a distance from the upper side of theback panel S1B. Said distance could be approximately the distance ofwhich the vertical height of the back panel S1B differs from thevertical height S1A of the front panel. One could then fold the backpanel S1B along the folding edge in the direction of the front panelS1A. The folded section of the back panel S1B can then be put over thefront panel S1A so that it covers the outer part of the front panelwhich comprises the closure element 4910. In that way a closure of thebag can be provided as well. Of course the closure element 4910 couldalso or instead be situated at the inner side of the folded part of theback panel S1B. The role of the front panel S1A and the back panel S1Bcan also easily be interchanged.

The closure element 4910 can also be an element which allows closing thetransport element with the help of an external closure element. As anexample, the closure element 4910 can comprise a welding strip. Thewelding strip can be formed from a layer of PE. The welding strip can bemade of a weldable material so as to enable closing the bag opening byheat welding such that entry of air into the bag interior is minimizedor prevented. Said external element is in one example a sealing element,for example a hot sealing element. It could also be an impulse sealingelement. The external element could be a welding element. The externalelement could be a so-called hot weld pistol. One could, for example,attach said external element at the upper side of the front panel S1Aand the back panel S1B so that it encloses said upper side of the frontpanel S1A and the back panel S1B at the part where the closure element4910 is situated. One could thus close the transport container at alater state with the help of the external element. In one example, theclosure element is part of sheet which is provided for being cut in amethod like method 1305. Thus, in one example the closure element 4910is not an additional element which has to be attached to the front panelS1A and/or the back panel S1B, but is already part of the front panelS1A and the back panel S1B. The closure element 4910 is in one exampleof the same material as the front panel S1A and/or the back panel S1B.According to an embodiment the water vapour impermeable membrane 190forms the welding strip.

The closure element 4910 can also be provided at the outside of thefront panel S1A and/or the back panel S1B when the front panel S1A andthe back panel S1B have the same size. This might be advantageous whenproviding a closure as described in relation to FIG. 40 and FIG. 41.

Other examples of closure elements are presented in FIG. 48A and FIG.48B. In FIG. 48A the closure element 5170 a is provided by a tape oranother adhesive material. This tape could be folded over the upper sideof the bag after the upper sides of the front panel S1A and the backpanel S1B are brought together. This provides an easy method to closethe bag. The length of the tape could be longer than the width of thebag. Then the outer edges of the tape could be put together to attacheach other. This provides a better closing of the bag. In FIG. 48B theclosure element 5170 b is provided by a clamp. The clamp 5170 b could,for example, press the upper parts of the front panel S1A and the backpanel S1B together. This pressing together could for example be causedby the form and the stiffness of the clamp 5170 b. The clamp 5170 b canhave a width which is longer than the upper width of the bag. The formof the clamp 5170 b can be different from what is shown in FIG. 48B.Although shown without a handle, it would be no problem to provide ahandle in FIG. 48A and FIG. 48B, for example a handle as in FIG. 45A orin FIG. 46.

What is said in relation to FIG. 48A and FIG. 48B can also be combinedwith other examples of the disclosure. A tape 5170 a or a closureelement 5170 b could, for example, be combined with a folded closing asdescribed in relation to FIG. 40 and FIG. 41. In that case it might inone example be advantageous to provide one or several clamps withshorter widths than the upper width of the front panel S1A and/or theback panel S1B. This is due to the fact that such a clamp might beenough to keep a closing as indicated in FIG. 41 at its place so that itwill not unfold automatically.

Yet another possibility is described in FIG. 48C. The front panel S1Aand/or the back panel S1B could have a protrusion 5110 c extending toits upper side. This protrusion 5110 c could be substantiallyrectangular. The protrusion could have an opening 5120 c. The opening5120 c could be such that it provides a handle. How openings can providehandles has been described before. At a part of the protrusion 5110 cwhich is between the opening 5120 c and the front panel S1A and/or backpanel S1B a closure element 5170 c could be provided. This closureelement 5170 c could have any of the properties of the closure element4910 which has been described before. Especially the closure element5170 c could provide adhesive force. The closure element 5170 c couldalso be thus that a closure could be provided with the help of anexternal element which has been described before.

The method 3300 can end after step 3310.

In FIG. 35 a method of providing a bag with a closure is illustrated.The closure which is provided there can, for example, be the closure asillustrated in FIG. 45A. This closure can be with or without therunner/slider 4880. A plurality of produced bags 3910 a, 3910 b, 3910 c,. . . can be provided. In the shown example the plurality of producedbags 3910 a, 3910 b, 3910 c, . . . is in an extended state. It should beunderstood that plurality of produced bags 3910 a, 3910 b, 3910 c, . . .equally well could be in a flat state. A long stripe 3920 of what shouldbe the elongated closure element 4870 a is provided. This long stripe3920 could comprise to stripes, one for the front panel S1A and one forthe back panel S1B. One or several cutting elements 3930 can be providedto cut the long stripe 3920 in between the plurality of plurality ofproduced bags 3910 a, 3910 b, 3910 c, . . . , for example along thedotted lines as indicated in FIG. 35. Said one or more cutting element3930 is only schematically drawn in FIG. 35. Said one or more cuttingelement 3930 are in one example at a substantially fixed position, atleast in one or two dimension, and the plurality of produced bags 3910a, 3910 b, 3910 c, . . . can be transported in relation to said one ormore cutting element 3930. The described way of providing a bag with aclosure can facilitate mass production.

In the following additional ways of providing a handle and/or a closureare described. Some of the steps can be part of any of the methods 1300,1302, 1305, 3200, and/or 3300. It should also be stressed that what isdescribed here can be well combined with what have been describedbefore. This combining might then provide additional embodiments of thepresent invention.

FIG. 40 shows an example of a section of a transport carrier-to-be. Thissection can, for example be a section of the sheet which is cut in step1320 of method 1305. The section is for example an enlargement of theupper left corner of FIG. 38. Parts of what is present of this sectionin FIG. 38, but which will not be discussed in the following, have beenremoved from FIG. 40 for not overloading the figure. FIG. 40 shows thusa protrusion 4320 at a front panel S1A. As has been described before,that protrusion can also be attached at a later state. It does thus notneed to be part of the pre-determined pattern which is cut in step 1320.It should also be stressed that the protrusion does not need to berectangular. The protrusion 4320 could also have the shape of arectangular with an attached triangle as shown in FIG. 36, or any othershape.

An edge part 4330 of the protrusion 4320 could be attached to acorresponding part of another protrusion of the base pattern. Whenlooking at FIG. 38, this other protrusion can for example be protrusion4120 b or protrusion 4120 c. This attaching can be done by gluing orbonding. For making the attaching possible the protrusion could befolded or bent, for example along a folding line/bending start line F10.This allows providing a handle. When attaching the edge pattern 4330 tothe protrusion 4120 b a handle on the side panel S2A can be provided.When attaching the edge pattern 4330 to the protrusion 4120 c a handleon the front panel will be provided. The edge part 4330 could be muchlarger than indicated in FIG. 40. The edge part is in one examplebasically the whole protrusion. This might provide an especially stronghandle.

In an alternative example no protrusion 4120 b and/or 4120 c isprovided. The edge part 4330 can then be attached to a correspondingarea on another element of the bag. This corresponding area can, forexample be an area at the side panel S2A or at the front panel S1A closeto where the protrusion 4120 b and/or 4120 c could have been attached.

At least one additional folding edge F11 can be provided at theprotrusion 4320. The at least one additional folding edge F11 comprisesin one example four additional folding edges F11.1, F11.2, F11.3, F11.4.This at least one additional folding edge can continue through the frontpanel S1A and/or one or both of the side panels S2A, S2B as well. Theremight also be at least one additional folding edge F12 on the frontpanel S1A and/or one or both of the side panels S2A, S2B. The at leastone additional folding edge F12 comprises in one example threeadditional folding edges F12.1, F12.2, F12.3. The additional foldingedges F12 comprise preferably between one and ten folding edges. Theadditional folding edges F11 comprise preferably between one and tenfolding edges. Corresponding folding edges can be provided at the backpanel S1B and/or at protrusions thereof. In the following it will onlybe described how the protrusion 4320 and the front panel S1A can befolded. The same applies to other protrusions or to any other panel S1B,S2A, S2B as well. The folding edges F11, F12 are in one examplesubstantially parallel and at a distance to the upper side of the frontpanel S1A and/or the protrusion 4320.

In one example the protrusion 4320 and or the front panel S1A is foldedalong the folding edges F11, F12 in the same direction. The folding isthus in one example always in the direction of the first sheet surfaceof the front panel S1A/the protrusion 4320. In another example, thefolding is always in the direction of the second sheet surface of thefront panel S1A/the protrusion 4320.

In one example, before starting the now described folding scheme, theback panel S1B is put into contact with the front panel S1A. This couldbe done by putting the upper side of the back panel S1B in contact withthe upper side of the front panel. In one example there are enclosedareas FS1, FS2, FS3, . . . between two adjacent folding edges F11/F12and/or between a folding edge F11/F12 and the upper side of the frontpanel S1A/the upper side of the protrusion 4320. Preferably, the contactbetween the back panel S1B and the front panel S1A is along the enclosedareas FS1, FS2, FS3. What is said regarding bringing the back panel S1Bin contact with the front panel S1A applies in one example also to theprotrusion 4320, which could be brought into contact with acorresponding protrusion at the back panel S1B, for example theprotrusion 4120 b of FIG. 38.

The folding is in one example done in the way that the enclosed area FS1between the upper side of the protrusion 4320/the upper side of thefront panel S1A and the uppermost folding edge, in the shown exampleF11.1, faces the enclosed area FS2 between the uppermost folding edgeF11/F12, in the shown example F11.1, and the second most upper foldingedge F11/F12, in the shown example F11.2. When folding edgescorresponding to F11/F12 exist at the back panel S1B/at protrusions fromthe back panel S1B, and when a folding along these corresponding foldingedges is performed in the same direction as a folding at the front panelS1A/the protrusion 4320, a closure of the transport container isprovided. The term same direction thus implies that the folding at theback panel S1B has to be towards the second sheet surface of the backpanel S1B when the folding at the front panel S1A is towards the firstsheet surface of the front panel S1A, and vice versa. The contactbetween the front panel S1A and the back panel S1B and/or thecorresponding protrusions is preferable kept throughout the foldingprocedure, so that the first sheet surface of the front panel S1A andthe back panel S1B and/or the corresponding protrusions always toucheach other.

In a next folding step, an enclosed area FS2 between the uppermostfolding edge F11.1 and the second uppermost folding edge F11.2 is foldedtowards the enclosed area FS3 between the second uppermost folding edgeF11.2 and the third uppermost folding edge F11.3. The enclosed area FS1,and preferably its counterpart on the back panel S1B, will thus besituated between the areas FS2 and FS3.

The folding can be continued along several or all of the folding edgesF11/F12. FIG. 41 shows a schematic example of how the result of thus afolding can look like. FIG. 41 can be obtained when looking into thedirection of the arrow D in FIG. 40. In FIG. 41 it is shown how theenclosed areas FS1, FS2, . . . can be arranged after the foldingprocedure. The horizontal lines in FIG. 41 are only sketched for clarityreason to provide an intermediate space between the enclosed areas FS1,FS2, . . . . The horizontal lines are in reality preferably not there,or at least much more narrow in relation to the vertical lines. In oneexample there is basically no space between the enclosed areas FS1, FS2,. . . The lines in FIG. 41 present preferably the front panel S1A andthe back panel S1B together, i.e. every line represents both the frontpanel S1A and the back panel S1B, where the front panel S1A is on oneside of the line and the back panel S1B on the other side of the panel.As can be seen, such a folding provides a closure of the bag. This hasthe advantage that no additional closing element is needed. It is,however, possible to combine such a folding with a closure element aswell. As an example, a closure element 4910 as described in relation toFIG. 46 can be provided at the enclosed area FS7 for attaching theenclosed area FS5 to it. This additionally increases the closingcapacity of the fore mentioned folding method.

In FIG. 40 the folding edges FS11/FS12 are sketched at equal distance.This is, however, not a prerequisite. On the contrary, it might bepreferably to slightly increase the distance between the folding edges.The reason can be seen in FIG. 41. A folded area has a certain thicknessand the next folded area needs to compensate for this thickness whenfolded around the previous area, as is indicated by the horizontal linesin FIG. 41. As the number of folding increases more and more areas, eachhaving a certain thickness, have to be compensated for. For the samereason it can be preferably to have slight differences between thedistances between the folding edges F11/F12 on the front panel S1Acompared to the corresponding folding edges on the back panel S1B.

An example of how the folding described in relation to FIG. 40 and FIG.41 can be applied to a bag made out of the base pattern in FIG. 36 isshown in FIG. 49A-49C. A starting point could be a bag in an openedposition as shown in FIG. 37J. This bag could be closed by bringing theupper portions of the front side panel S1A and the back side panel S1Btogether as shown in FIG. 49A. Then, the bag in FIG. 49A can be foldedalong folding edges F12.1-F12.4 as described in relation to FIG. 40 andFIG. 41. A bag as shown in FIG. 49B will be achieved. If the combinedlength L5210 of the protrusion in a folded state 5210 is larger thanthrice the length of the upper side of the front panel S1A and/or backpanel S1B, the protrusion in a folded state 5210 could be turned to froma handle 5210 c as shown in FIG. 49C. Preferably, the combined lengthL5210 of the protrusion in a folded state 5210 is at least four timeslarger than the length of the upper side of the front panel S1A and/orback panel S1B. This has the advantage that no additional elementsexcept the sheet providing the pre-determined base pattern have to beprovided for forming the handle and/or closure of the bag. For formingthe handle 5210 c the outer ends of the protrusion in a folded state5210 can be attached to each other.

A bag with the triangles not attached to each other, as shown in FIG.40N, could be folded in the same way.

A bag starting with a base-pattern as shown in FIG. 38 could providehandle and/or closure in an analogous way as shown in FIG. 49A-C. In oneexample, the combined length L5210 of the protrusion in a folded state5210 is only slightly larger than the length of the upper side of thefront panel S1A and/or back panel S1B. Then a handle 5210 c of the kindshown in FIG. 49C will not be provided. In one example, the parts of theprotrusions in the folded state 5210 are folded towards the front panelS1A and/or the back panel S1B.

When referring to the upper length of the front panel S1A and/or theback panel S1B in relation to FIG. 49B and FIG. 49C it should beunderstood that this is the upper length in the state shown in FIG. 49Band FIG. 49C. This length could differ from the upper length of thefront panel S1A and/or the back panel S1B in FIG. 49A, since the upperlength there now has been folded away.

It should also be stated that FIG. 37A-N and FIG. 49A-C only areschematically. The relation of the area of the front panel S1A and/orthe back panel S1B and the bottom plane BP could be much different fromwhat is shown in the figures. As an example, the remaining part of thefront panel S1A in FIG. 49C could be several times, for example five orten times, the area of the bottom plane.

FIG. 50A-C shows yet another example, where FIG. 50A corresponds to FIG.49A, and so on. In this example, only an outer part of the protrusions4020 a, 4020 b, 4020 c, 4020 d; 4120 a, 4120 b, 4120 c, 4120 d isattached to each other. The other parts of the protrusions 4020 a, 4020b, 4020 c, 4020 d; 4120 a, 4120 b, 4120 c, 4120 d are preferably notattached to each other, thus allowing the protrusions to form at leastone opening 5305. The folding between FIG. 50A and FIG. 50B is doneanalogous to the folding from FIG. 49A to FIG. 49B. A protrusion in afolded state 5310 looks then similar to what is shown in FIG. 49B,except that the protrusion in a folded state 5310 has said at least oneopening. When turning said protrusion in a folded state 5310, this atleast one opening 5305 can be used as a handle for the bag. This isindicated in FIG. 50C. What is said in relation to FIG. 49A-C regardingsize of areas applies here as well. Providing handles as shown in FIG.50C has the advantage that no additional elements are needed for thehandle.

A Method of Grocery Delivery

According to an embodiment, the carrier bag 20 may advantageously beused by on-line shops, for delivery of frozen or chilled groceries whichhave been ordered e.g. via the Internet. The advantageous ability of thebag 20 to preserve the frozen or cold state of groceries for an extendedlength of time may enable a reduction in the cost for delivery of frozenor chilled groceries.

FIG. 21 shows a schematic block diagram of an embodiment of a system fordelivering groceries according to an embodiment of the invention.Reference numeral 500 relates to a client location with a computer 510having a user interface 520 for enabling a client, such as e.g. a personwanting to buy goods, to access the Internet. The computer 510 has acommunications port 520 for bi-directional data exchange. Thecommunication port 520 is connectable to a communications network 530,e.g. via a data interface 19. The communications network 530 may be theworld wide internet, also known as the Internet. The communicationsnetwork 530 may also comprise a public switched telephone network.

A server computer 540 is also connected to the communications network530. The server computer 540 may comprise a database 560, userinput/output interfaces 570 and data processing hardware 580, and acommunications port 590. The server computer 540 is located on a serverlocation 592, which is geographically separate from the client location500. The server location 592 may be in a first city, such as the Swedishcapital Stockholm, and the client location may be in another city, suchas Berlin, Germany. Alternatively, the server location 592 may be in afirst part of a town and the client location may be in another part ofthe same town. The server location 592 may also be referred to assupplier part 592, or supplier part location 592. The server computermay be part of an on-line business entity 595 for the sales and deliveryof goods that needs to be kept chilled, cold or frozen.

The on-line business also includes a storage facility 600 for goods 40.A storage computer 610 is connected to the communications network 530.The storage computer 610 may comprise user input/output interfaces 620and data processing hardware 630, and a communications port 640.

The storage facility 600 also comprises one or several storage rooms650. According to an embodiment of the invention, the storage room 650has a controlled environment, in that the temperature and the relativehumidity of the air in the storage room 650 is controlled so that it iskept within certain predetermined ranges.

The goods may comprise a plurality of different types of goods, and thegoods may be sorted into different temperature ranges TI, TII, TIII, andTIV, each type of gods being stored in a corresponding storage room 650_(TI), 650 _(TII), 650 _(TIII), and 650 _(TIV) having a temperature inaccordance with the corresponding goods temperature range TI, TII, TIII,or TIV (See FIG. 22). According to an embodiment the temperature in eachstorage room is set 650 _(TI), 650 _(TII), 650 _(III), and 650 _(TIV) inaccordance with a lowest acceptable goods temperature range for thecorresponding goods. According to an embodiment the temperature in eachstorage room 650 _(TI), 650 _(TII), 650 _(TIII), and 650 _(TIV) is setin accordance with a lowest acceptable goods temperature range for thecorresponding goods, and the relative humidity of the air is also set toa lowest acceptable value dependent on the type of goods in that storageroom. According to an embodiment, the relative humidity of the air isset to a value equal to or lower than lower than 40% RH in a roomstoring chilled or frozen goods so as to reduce or minimize the rate ofcondensation.

FIG. 22 is a schematic block diagram of an embodiment of a storagefacility 600 comprising plural storage rooms 650 _(TI), 650 _(TII), 650_(TIII), and 650 _(TIV). With reference to FIG. 22, the facility 600 mayalso comprise a goods loading room 660. The goods loading room 660 maybe arranged so that a storage room 650 is accessible directly from thegoods loading room 660.

According to an embodiment, the ambient air temperature in goods loadingroom 660 is kept lower than +18 degrees Centigrade. The air humidity isadvantageously kept low in the environment where chilled or frozen goodsis to be packed into containers 20 so as to eliminate or minimize theoccurrence of condensation or frosting on chilled or frozen goods.According to an embodiment the relative air humidity is kept lower than40% RH. According to another embodiment the relative air humidity iskept lower than 20% RH.

In this connection it may be noted that the occurrence of condensationcan cause significant heating of chilled, non-frozen, goods. If airhumidity causes condensation on the surface of a piece of chilled,non-frozen, goods the increase of the mean temperature of a piece ofchilled, non-frozen, goods is:DT _(chg)=2260*m _(Cond)/(W _(chg) *m _(chg)), where

-   -   DT_(chg)=the increase in mean temperature of the chilled goods        [degrees Centigrade]    -   m_(Cond)=number of grams of water being deposited on chilled        goods by condensation    -   W_(chg)=mean heat capacity of the chilled goods    -   m_(chg)=the mass of the chilled goods [kilograms]

For frozen goods the impact of frosting is even more severe. When airhumidity causes water droplets to be formed on frozen goods thecondensed water may also freeze. The formation of condensed water fromair humidity, the condensed water subsequently also freezing to formice, or frost, is herein also referred to as “frosting”. If air humiditycauses frosting on the surface of a piece of frozen goods the increaseof the mean temperature of a piece of frozen goods is:DT _(FRG)=2594*m _(Cond)/(W _(FRG) *m _(FRG)), where

-   -   DT_(FRG)=the increase in mean temperature of the chilled goods        [degrees Centigrade]    -   m_(frost)=number of grams of frost (frozen water) being        deposited on frozen goods by condensation & freezing    -   W_(FRG)=mean heat capacity of the frozen goods    -   m_(FRG)=the mass of the frozen goods, measured in kilograms

Accordingly, an object and an advantageous feature of the invention isto eliminate or minimize warming of chilled or frozen goods duringpacking into a container 20 by eliminating or minimizing the occurrenceof frosting and/or condensation on chilled or frozen goods. According toan embodiment, the ambient air temperature in goods loading room 660 istherefore kept lower than +10 degrees Centigrade, and the air humidityis also kept low in the environment where chilled or frozen goods is tobe packed into containers 20 so as to eliminate or minimize theoccurrence of condensation or frosting on chilled or frozen goods.According to an embodiment the relative air humidity is kept lower than30% RH. According to another embodiment the relative air humidity iskept lower than 20% RH.

In fact, the energy released by 1 gram of water vapour being turned intoa layer of ice on a package containing one kilogram of frozen water isactually sufficient to warm that whole kilogram of frozen water by 1.18degrees. Thus, if e.g. 12 grams of water vapour is allowed to turn intoa frost layer of ice on a package of frozen grocery, that energy (justover 31 kJ) may suffice to warm that grocery by several degrees. Theexact temperature change depends on the specific heat capacity W_(FRG)of that particular piece of grocery, as illustrated by the equationslisted above. Pure fresh water ice has a specific heat capacity of 2200J/(kg*K), and thus 12 grams of frost being formed would suffice to warmthat one kilogram of fresh water ice by about 14 degrees Centigrade.

In this connection the maximum amount of water vapour at various airtemperatures may be relevant. The right hand column in Table 1 belowprovides an overview of the water mass per unit volume of vapoursaturated air. The left hand side column indicates correspondingtemperature and the middle column indicates the pressure of saturatedvapour.

TABLE 1 Temperature Pressure Density ° C. mbar G m⁻³ −35 0.23 0.22 −300.37 0.35 −25 0.63 0.57 −20 1.03 0.91 −15 1.65 1.39 −10 2.60 2.15 −83.09 2.53 −6 3.68 2.99 −4 4.37 3.53 −2 5.17 4.14 ±0 6.11 4.85 +2 7.055.57 +4 8.13 6.37 +6 9.34 7.27 +8 10.72 8.28 +10 12.26 9.41 +12 14.0110.67 +14 15.97 12.08 +16 18.17 13.65 +18 20.62 15.39 +20 23.37 17.32+22 26.42 19.44 +24 29.83 21.81 +26 33.60 24.40 +28 37.79 27.26 +3042.42 30.39 +32 47.55 33.85 +34 53.19 37.61 +36 59.41 41.74 +38 66.2546.25 +40 73.77 50.17 +42 82.01 56.52 +44 91.02 62.38 +46 100.87 68.57+48 111.64 75.50 +50 123.4 83.0

The storage facility 600 also comprises storage of containers 20 for thetransport of chilled or frozen goods. The containers 20 may be carrierbags 20 for the transport of chilled or frozen goods. The containers 20may be provided in plural predetermined sizes, such as e.g. fivedifferent sizes. The interior storage space volume of the containers 20sizes may comprise e.g. 10 litres, 20 litres, 30 litres, 40 litres and50 litres.

With reference to FIG. 22, the facility 600 may comprise plural storagerooms 650 _(TI), 650 _(TII), 650 _(TIII), and 650 _(TIV), as mentionedabove. The Goods storage facility # may keep a stock of goods 40 _(I) ata first cool temperature within the first temperature range T_(I). Thefirst temperature range may be 15-18 degrees Centigrade. Such goods 40_(I) may comprise grocery such as fresh produce, such as fruit ormushroom, which may be provided in separate portion sized packages orcontainers 40A. Thus, some goods may be provided at a first, cool,temperature range T_(I) of about 15-18 degrees Centigrade.

Some goods may be provided at a second, cold non-freezing, temperaturerange T_(II). The second cold non-freezing temperature range may be arange of about +6 to +8 degrees Centigrade. Alternatively, the coldnon-freezing temperature range may be a range of about +1 to +4 degreesCentigrade.

Some goods may be provided at a third temperature range T_(III). Thethird temperature range TIII may be a freezing temperature range of e.g.between −18 degrees to −22 Centigrade.

Moreover, some goods may be provided at a fourth freezing temperaturerange T_(IV) which is colder than the third range. The fourth range maybe e.g. of between −to −40 degrees Centigrade. Providing frozen goodswithin such a low temperature range advantageously extends the timerequired for the frozen goods to warm towards a minimum freezingtemperature T_(frMin). The minimum freezing temperature T_(frMin) may bee.g. −10 or −4 degrees Centigrade. The value of the minimum freezingtemperature T_(frMin) depends on the type of goods.

According to an embodiment, the fourth freezing temperature range T_(IV)is a settable range, such that the fourth freezing temperature rangeT_(IV) can be set to a value T_(IV)=T_(f4)+/−T_(ra), wherein the valueT_(IV) is a temperature between −25 to −40 degrees Centigrade, andT_(ra)=is inaccuracy range. The inaccuracy range T_(ra) may be a narrowspan of a few degrees. The inaccuracy range T_(ra) may be a narrow spanof e.g. less than two degrees.

When transporting chilled or frozen goods in an embodiment of a chillconserving container 20, the duration from the packing of the chilled orfrozen product into the chill conserving container 20 until the goodshas reached a certain higher temperature T_(ch2) depends on the initialtemperature T_(ch1) of the chilled or frozen goods. Thus, a lowerinitial goods temperature T_(ch2) will increase the duration T_(COOL)during which the goods is kept below a certain limit value T_(chlimit).Thus a lower initial goods temperature T_(ch2) will enable a longeracceptable transport time of the chilled or frozen goods.

However, the inventors concluded that a lowering of the initialtemperature T_(ch1) does not lead to a proportionally longer durationT_(COOL) during which the goods is kept below a certain limit valueT_(chlimit).

FIGS. 23A and 23B show a schematic block diagram of an embodiment of amethod of delivering chilled or frozen goods according to an embodimentof the invention.

With reference to FIG. 23A, the left flow chart F10 illustrates actionsperformed by means of a client location computer 510. In a step S200 aclient, such as e.g. a person wanting to buy goods, places an order forchilled and/or frozen goods by causing the client location computer 510to communicate with the server computer 540 located at the serverlocation 592. The client may thus place an order for a certain amount Aof chilled and/or frozen goods to be delivered to a delivery destinationDD.

The server computer 540 may thus be adapted to receive an order, asindicated by step S300 in the right hand side flow chart F20 in FIG.23A. The server computer 540 may also include functionality fordebiting, and for confirming receipt of the order.

When the order includes a request for goods that should be kept withinmutually different temperature ranges, the server computer 540 may beadapted to sort the order information according to the goods temperatureranges (step S310).

With reference to FIG. 23A and FIG. 21, the server computer 540 may, ina step S320, transfer a delivery instruction DI to the storage computer610 at the storage facility 600. The delivery instruction DI maycomprise information about the amount of each piece of goods ordered andinformation indicative of the delivery destination DD. The deliveryinstruction DI may also be indicative one or plural goods temperatureranges associated with the ordered goods.

In a step S330 the delivery instruction DI may be received by thestorage computer 610 at the storage facility 600. In a step S340 thestorage computer 610 may be adapted to create a packing instruction PI.The packing instruction may include information about the amount of eachpiece of goods ordered.

It is noted that the step S310 may be performed by the storage computer610, as an alternative to being performed by the server computer.

When the order includes a request for goods that should be kept withinmutually different temperature ranges, the storage computer 610 may beadapted include structured information in the packing instruction PI sothat an approximate volume and/or an approximate mass of the goodswithin an individual temperature range TI, TII, TIII, or TIV isindicated by the packing instruction PI. In dependence on theinformation in the packing instruction PI the storage computer 610 maygenerate an indication of a suitable type and/or suitable size oftransport container for the ordered goods. As mentioned above, thecontainers 20 may be provided in plural predetermined sizes, such ase.g. five different sizes. The interior storage space volume of thecontainers 20 sizes may include plural container volume sizes V1, V2,V3, V4, V5. The container volumes may include V1, V2, V3, V4, V5 beingmutually different sizes such as e.g. 10 litres, 20 litres, 30 litres,40 litres and 50 litres.

With reference to FIG. 21 in conjunction with FIG. 22, and step S340 inFIG. 23A, the storage computer 610 may deliver the packing instructionPI to a relevant user input/output interface 620 _(I), 620 _(II), 620_(III), or 620 _(IV) dependent on the volume and/or mass indicated forgoods within an individual temperature range TI, TII, TIII, or TIV isindicated by the packing instruction PI. Thus, for example, when thepacking instruction PI includes an indication that X kg of goods withinthe fourth temperature range TIV is to be packed, the instruction may besent to the corresponding user input/output interface 620 _(IV) (SeeFIG. 22). A user input/output interface 620 _(I), 620 _(II), 620 _(III),and/or 620 _(IV) may include a display. The display 620 _(I), 620 _(II),620 _(III), and/or 620 _(IV) may be adapted to be read by a person whosetask it is to move the indicated amount of goods from the indicatedstorage room 650 _(TI), 650 _(TII), 650 _(TIII), and/or 650 _(TIV)

into a container 20 having an indicated size V1, V2, V3, V4, or V5. Ithas been found that there is an optimum filling degree of a chillcontainer 20. Moreover, it has been found that if X kg of a certainchilled or frozen goods is to be transported, it is better to includethe X kg in one chill container 20 than to split the X kg into smallerplural smaller amounts in different containers. Thus, all goods within acertain temperature range should preferably be collectively packed in asfew containers as possible, while not exceeding the optimum fillingdegree of a chill container 20. The optimum filling degree allows for anair gap to form between the inner surface of the container 20 and theouter surface of the cold or frozen goods. Preferably the container isfilled to a filling degree such that the chilled goods avoids physicalcontact with any side wall and with the inside of the closed uppersurface, i.e. the sealed opening portion of the container 20. Thus,packing instruction PI may include information indicative of arecommended number container(s) 20 and recommended container size V1,V2, V3, V4, or V5 for goods within each temperature range (see step S350in FIG. 23A) so as to allow for packing a minimum number of uniformgoods temperature containers being filled to the optimum filling degree.

In a step S360 one or plural containers 20 are packed. According to apreferred embodiment, a certain container 20 is filled with goods havingmutually uniform temperature. This advantageously contributes to asubstantially uniform temperature throughout the goods in that container20, and it minimizes any temperature re-distribution between mutuallydifferent pieces of goods. Thus, in step S360 one or plural containers20 may be packed such that a minimum number of uniform goods temperaturecontainers are filled to the optimum filling degree. With reference toFIG. 22, the actual packing of containers 20 may be performed manuallyby a person receiving instructions from the user interface 620 in goodsloading room 660.

When the container(s) 20 have been filled, as described above, eachcontainer 20 may be closed and sealed, as indicated in step S370 (FIG.23B). This may also be done manually. as described elsewhere in thisdocument, there are many alternative manner by which closing and/orsealing of the container 20 may be performed. This may include heatwelding, gluing, sealing by use of a tape, or by clamping. Closingand/or sealing of the container 20 may be also be performed by folding arim portion of a bag 20. With reference to figure According to yet anembodiment the container 20 may include a neck portion 662 of flexiblematerial at the rim portion of the container wall(s), the flexiblematerial being shaped and sized to allow a string 664 being placedaround the neck portion so as to strangle the neck portion such that thecontainer becomes substantially sealed.

According to an embodiment, the storage computer 610 may deliver thepacking instruction PI to a packing robot 670 (See FIG. 21 inconjunction with step S340 in FIG. 23A). Although FIG. 21 only shows onestorage room 650, it is to be understood that there may be pluralstorage rooms 650 _(TI), 650 _(TII), 650 _(TIII), 650 _(TIV) and one,several or all the storage rooms 650 _(TI), 650 _(TII), 650 _(TIII), 650_(TIV) may be provided with a packing robot 670, thereby enablingcomplete packing to be to performed in a cold and dry environment.

When packing is performed by a robot the whole packing procedure may beperformed within the respective storage room 650 _(TI), 650 _(TII), 650_(TIII), 650 _(TIV) having a controlled air temperature and a controlledair humidity. For optimum cold retention properties of the container 20during the-transport-to-come, the container 20 should preferably bepacked and sealed such that the air trapped within the container 20 hasa relative humidity of less than 70% at an air temperature equal to thesurface temperature of the goods during packing.! The purpose of thisfeature is to minimize or eliminate the risk of condensation occurringwithin the container 20. Since the relative air humidity decreases inresponse to increased temperature, such relatively dry air beinginitially trapped in the container may not only avid causingcondensation, but it may also advantageously be able to absorb anddilute some humidity that may originate from the chilled goods or from aminor entry of ambient air during transport.

With reference to step 380 in FIG. 23B, and FIG. 21, the sealedcontainer(s) 20 may be placed in or on a transport vehicle 680 fordistribution to the delivery destination DD. The delivery destinationmay be the client location 500, or a geographically different place.

As illustrated by step S390 in FIG. 23C, the sealed container(s) is/aretransported to the delivery destination DD in accordance with theinformation in the delivery instruction DI. The sealed container(s) 20may have the ability to retain an initial low goods temperature for along time due to the interaction of a number of cleverly combinedfeatures, as described elsewhere in this document, even when used in anair atmosphere environment having an ambient air temperature of morethan +10 degrees Centigrade. The sealed container(s) 20 may have theability to retain an initial low goods temperature for a long time alsowhen the air atmosphere environment has an ambient air temperature ofmore than +20 degrees Centigrade or more.

With reference to step S400 in FIG. 23B, and FIG. 21, the sealedcontainer(s) 20 may be delivered at the delivery destination DD inaccordance with the information in the delivery instruction DI.

In fact, a test has been made where the air atmosphere environment hadan ambient air temperature of +60 degrees Centigrade, and kraft papercarrier bag 20, according to an embodiment of the invention, was loadedwith a mass of 5 kg frozen chicken meat. The kraft paper bag accordingto the embodiment used in the test had:

kraft paper Basis weight=136.3 g/m2

kraft paper layer Thickness=161 μm

kraft paper Density 848 kg/m3

Air permeance of the water vapour impermeable PE layer: less than 0.35μm/Pa·s, i.e. sufficiently low not to be measurable according to ISO5636-3: 2013

Thermal conductivity of the bag wall having a kraft paper layer and awater vapour impermeable PE layer as defined above: 0.098 W/(mK) (It isnoted that the thermal conductivity was established separately at 22° C.and 50% RH).

A temperature probe was placed in between plural 1 kg packages of frozenchicken, the total weight of the frozen chicken being 5 kg. Test resultsare indicated in FIG. 25. The horizontal axis in FIG. 25 indicates time,and the vertical axis indicates temperature. The initial temperature ofthe frozen chicken, as indicated by the measurement probe, was −30.9degrees Centigrade, at 15:03, i.e. at 3 PM local time. Ambient air had aconstant temperature of 60 degrees Centigrade, and the measurementcontinued until 07:43 the next morning. As illustrated in FIG. 25 ittook four hours before the meat, at 19:13 reached −10 degreesCentigrade.

Thus, the above described method of packing a container with chilledand/or frozen goods advantageously enables a very cost effectivedelivery of chilled and/or frozen goods. In particular it is noted thatthe above described method of packing a container with chilled and/orfrozen goods advantageously enables transporting the chilled and/orfrozen goods for an extended amount of time without requiring the use ofa vehicle having active cooling or freezing devices.

In another test, the air atmosphere environment had an ambient airtemperature of +20 degrees Centigrade and a relative humidity of 70% RH.A kraft paper carrier bag 20, according to an embodiment of theinvention, was loaded with a mass of 4.7 kg frozen fresh water. Thekraft paper bag according to the embodiment used in the frozen freshwater test had:

kraft paper Basis weight=136.3 g/m2

kraft paper layer Thickness=161 μm

kraft paper Density 848 kg/m3

Air permeance of the water vapour impermeable PE layer: less than 0.35μm/Pa·s, i.e. sufficiently low not to be measurable according to ISO5636-3: 2013

Thermal conductivity of the bag wall having a kraft paper layer and awater vapour impermeable PE layer as defined above: 0.098 W/(mK) (It isnoted that the thermal conductivity was established separately at 22° C.and 50% RH).

FIG. 26 illustrates graphs of the temporal progression of temperature intwo positions in a block of ice which was placed in a bag 20 accordingto the above described embodiment. As a comparison FIG. 26 alsoillustrates graphs of the temporal progression of temperature in twopositions in a block of ice which was placed in a bag according theprior art. Tables 2 and 3 (the next page of this document) providemeasured values.

FIG. 27 illustrates graphs of the temporal progression of temperature intwo positions in a 4.7 litre canister of fresh water which was placed ina bag 20 according to the above described embodiment. As a comparisonFIG. 27 also illustrates graphs of the temporal progression oftemperature in two positions in a 4.7 litre canister of fresh waterwhich was placed in a bag according the prior art. Tables 4 and 5 (thenext page of this document) provide measured values.

TABLE 2 Time from +1° C. measured in the centre of the frozen goods +5°C. +8° C. +10° C. Carrier bag according to 53 min 1 h 47 min 2 h 23 minDE 8904678 Kraft paper bag 20 2 h 26 min 5 h 13 min 6 h 53 min

TABLE 3 Time from −30° C. measured in the centre of the frozen goods−18° C. −15° C. −10° C. −5° C. 0° C. Carrier bag according to 38 min 49min 1 h 1 h 2 h DE 8904678 09 min 33 min 50 min Kraft paper bag 20 1 h 1h 2 h 3 h 5 h 16 min 41 min 30 min 27 min 11 min

TABLE 4 Time from +1° C. measured in an edge of the frozen goods +5° C.+8° C. +10° C. Carrier bag according to 53 min 1 h 47 min 2 h 23 min DE8904678 Kraft paper bag 20 2 h 26 min 5 h 13 min 6 h 53 min

TABLE 5 Time from −30° C. measured in an edge of the frozen goods −18°C. −15° C. −10° C. −5° C. 0° C. Carrier bag according to 31 min 41 min59 min 1 h 2 h DE 8904678 21 min 21 min Kraft paper bag 20 1 h 1 h 2 h 3h 4 h 22 min 06 min 01 min 20 min

Further embodiments are described below:

Embodiment A1

A container for use in an air atmosphere environment, the containerhaving

-   -   a wall adapted to enclose an interior storage space for        transporting chilled and/or frozen goods, the wall being shaped        and adapted to form said interior storage space to a volume of        at least ten metric litres; said wall comprising:        a) a layer of a material having a thermal conductivity of less        than 0.2 W/(K*m); and        b) a substantially water vapour impermeable membrane bonded to        at least one side of said material layer; and        c) a closable opening such that the container in its closed        state substantially seals the interior storage space from the        environment so as to minimize or prevent entry of air from the        environment into the interior storage space.

Embodiment A2

The container as defined in Embodiment A1, wherein the wall is shapedand adapted to form said interior storage space to a volume of at least20 metric litres; and wherein

said material layer has a tensile strength exceeding 0.267 Newton/squaremillimeter.

Embodiment A3

The container as defined in Embodiment A1, wherein the wall is shapedand adapted to form said interior storage space to a volume of at least30 metric litres; and wherein

said material layer has a tensile strength exceeding 0.4 Newton/squaremillimeter.

Embodiment A4

The container as defined in Embodiment A1, wherein the wall is shapedand adapted to form said interior storage space to a volume of at least40 metric litres; and wherein

said material layer has a tensile strength exceeding 0.533 Newton/squaremillimeter.

Embodiment A5

The container as defined in Embodiment A1, wherein the wall is shapedand adapted to form said interior storage space to a volume of at least50 metric litres; and wherein

said material layer has a tensile strength exceeding 0.667 Newton/squaremillimeter.

Embodiment A6

The container as defined in Embodiment A1, wherein the container isadapted to be collapsible so as to have

-   -   a collapsed state for enabling transportation of the container        in a substantially flat state, and        -   an expanded state such that the container, in its expanded            state, provides an interior storage space for transporting            chilled and/or frozen goods.

Embodiment A7

The container as defined in Embodiment A1, wherein

the container is shaped in such a manner that plural containers 20 canbe stacked so as to enable transporting a plurality of stackedcontainers within a certain volume in three dimensional space; saidcertain volume being smaller than the sum of the individual containervolumes.

Embodiment A8

The container as defined in Embodiment A7, wherein an individualcontainer has, at least partly, a cone shape such that two at leastpartly cone shaped containers can be placed one partly within the other.

Embodiment A9

The container as defined in Embodiment A1, wherein said material layeris a biodegradable material.

Embodiment A10

The container as defined in Embodiment A1, wherein said substantiallywater vapour impermeable membrane is a biodegradable material.

Embodiment A11

The container as defined in Embodiment A1, wherein said material layeris a biodegradable material; and wherein

said substantially water vapour impermeable membrane is a biodegradablematerial.

Embodiment A12

The container as defined in Embodiment A1, wherein the container, whenin use for transporting chilled and/or frozen goods, is shaped andadapted to enable a human to carry the container such that the centre ofgravity of the loaded container is less than 10 cm from at least onecontainer wall. This advantageously allows for an ergonomically friendlycarrying of the container.

Embodiment A13

The container as defined in Embodiment A1, wherein

-   -   said wall is shaped and adapted to form said interior storage        space to a volume of less than 100 metric litres.

Embodiment A14

The container as defined in Embodiment A1, wherein said wall comprisesKraft paper.

Embodiment A15

The container as defined in Embodiment A1, wherein said wall comprises aNon-woven material

-   -   Conventional textiles    -   Film of foamed/porous thermoplastic.

Embodiment A16

The container as defined in Embodiment A1, wherein said material layerhas a tensile strength exceeding 0.133 Newton/square millimeter.

Embodiment A17

The container as defined in Embodiment A1, wherein said wall material isselected from a list comprising:

-   -   Film of foamed/porous thermoplastic. The thermoplastic may be a        conventional oil-based plastic such as polyethylene,        polypropylene or polyurethane. It is also possible to use a        bio-based plastic, polylactic acid (PLA)    -   Film of foamed/porous rubber (rubber can be of many types, but        neoprene (chloroprene rubber) are preferred.

Embodiment A18

The container as defined in Embodiment A16, wherein Said non-wovenmaterials and conventional textiles have a tensile index value exceeding50 kNm/kg and a thermal conductivity of λ<0.2 W/(m·K).

Embodiment B1

A grocery transport system comprising

-   -   a storage facility (600) for goods; The storage facility        comprising one or several storage rooms having a controlled        environment, in that the temperature and the relative humidity        of the air in the storage room is controlled so that it is kept        within certain predetermined ranges; wherein    -   the goods comprises a plurality of different types of goods, at        least one type of goods being chilled or frozen.

Further embodiments are disclosed below:

Embodiment C1

A collapsible handle-carryable grocery carrier bag (20) for use in anair atmosphere environment (10), the carrier bag (20) having

-   -   a collapsed state (20A) for enabling transportation of the        carrier bag in a substantially flat state, and    -   an expanded state (20B, 20C) such that the carrier bag, in its        expanded state, provides an interior storage space (100) for        transporting chilled and/or frozen grocery packages (40), the        carrier bag (20) comprising:    -   a paper layer (180) being shaped and folded so as to form        -   a front wall panel (110, S1A),        -   a back wall panel (120, S1B),        -   two mutually opposing side wall panels (130A, S2A; 130B,            S2B); and        -   a substantially rectangular bottom panel (140); wherein the            wall panels and the bottom panel cooperate to form said            interior storage space (100) to a volume of between 10            litres and 50 litres in the expanded state of the carrier            bag; and    -   wherein a rim portion (150) of the wall panels facing away from        the bag bottom panel (140) provides a bag opening (160); the        carrier bag (20) further comprising    -   a first handle (170A) adapted to allow gripping by a human hand        for enabling carrying of the grocery carrier bag, the first        handle comprising a paper strip formed in a U-shape and having        two paper strip end portions (200A; 210A); the paper strip end        portions (200A; 210A) of the first handle (170A) being attached        to said rim portion (150) of said front wall panel (110, S1A);        and wherein    -   said paper layer is a kraft paper layer (180) having a surface        weight of at least 100 grams per square meter; said kraft paper        layer (180) having a substantially water vapour impermeable        membrane (190) bonded to at least one side of the kraft paper        layer (180); and wherein    -   the carrier bag (20) has    -   a mechanical interlock (240) attached to said rim portion (150);        said mechanical interlock (240) being arranged and positioned to        provide        -   an open expanded state (20B) of the carrier bag (20) for            loading and/or unloading grocery packages (40) to be            transported, and        -   a closed expanded state (20C) of the carrier bag (20) such            that the carrier bag, in its closed expanded state (20C),            provides a substantially closed interior storage space (100)            for transporting chilled and/or frozen grocery packages;            wherein    -   the mechanical interlock (240) is closable such that, in the        closed expanded state (20C) of the carrier bag, the mechanical        interlock (240) cooperates with said wall panels and bottom        panel so as to close and substantially seal the interior storage        space (100) from the environment (10) so as to minimize or        prevent entry of air from the environment into the interior        storage space (100) such that when a grocery package comprising        frozen food is transported in said interior storage space the        grocery bag is adapted to minimize or prevent the occurrence of        condensation within the interior storage space (100).

This solution advantageously provides a collapsible handle-carryablegrocery carrier bag enabling the transport of frozen or chilledgroceries while maintaining the frozen or chilled state of the groceriesfor a dramatically extended duration of time, while preserving theintegrity of the carrier bag during transport, even when the bag istransported in tropical environments, e.g. at temperatures of 25 degreesCentigrade or more.

In this context it is to be noted that the air in the atmosphere of theearth inherently has a certain humidity. In other words, the aircontains a certain amount of water in vapour form. In this context, itdeserves mentioning that the absolute humidity is the mass of watervapour per unit volume of total air and water vapour mixture. Absolutehumidity in the atmosphere reaches roughly 30 grams per cubic meter whenthe air is saturated at 30° C. The absolute humidity in southern Swedenin the month of July (average value for the years 1996 to 2012) rangedfrom 9 grams/cubic metre to 12 grams/cubic metre, according to theSwedish Meteorological and Hydrological Institute (SMHI).

A relative air humidity of around 50% is common, and during summertimeor in subtropical or tropical climate zones the outdoor air humidity maybe higher than that. Thus a relative air humidity of around 80% is notunusual. The relative humidity of an air-water mixture is defined as theratio of the partial pressure of water vapour (H2O) in the mixture tothe saturated vapour pressure of water at a given temperature. Thus therelative humidity of air is a function of both water content andtemperature. As a rule of thumb, the relative air humidity may beestimated to increase by about 5% when the temperature drops by 1degree. Accordingly, when the air of the environment has a temperatureof +18 degrees C. and a relative air humidity of e.g. 60% and that airmeets a cold surface, vapour may condense into liquid water on thesurface when the air temperature reaches the dew point, i.e. a relativeair humidity of about 100%.

In this context, it also to be noted that heat is released when vapourcondenses into liquid water. In fact, one (1) gram of liquid water beingformed from vapour releases 2260 J (joule) of energy. When that one gramof liquid water freezes to ice form it releases another 334 J. Thus, theenergy released by 1 gram of water vapour being turned into a layer ofice is 2594 J. By comparison, it is to be noted that only 2.2 J isrequired in order to increase the temperature of 1 gram of ice (frozenwater) by one degree. In other words, the energy released by 1 gram ofwater vapour being turned into a layer of ice on a package containingone kilogram of frozen water is actually sufficient to warm that wholekilogram of frozen water by 1.18 degrees. Thus, if 12 grams of watervapour is allowed to turn into a frost layer of ice on a package offrozen grocery, that energy (just over 31 kJ) suffices to warm thatgrocery by several degrees. The exact temperature change depends on thespecific heat capacity of that particular piece of grocery. Ice has aspecific heat capacity of 2200 J/(kg*K), and thus 12 grams of frostbeing formed would suffices to warm that one kilogram of fresh water iceby about 14 degrees Centigrade.

Thus, whereas a collapsible handle-carryable grocery carrier bagaccording the state of the art, as disclosed by the German Utility ModelApplication DE 89 04 678 provides handles for conveniently carrying thegroceries, any frozen grocery packages would appear to inherently causevapour to condense into liquid water when the open carrier bag istransported in a warm air atmosphere environment having air humidityallowing such air to reach the dew point on a frozen grocery packagesurface. Such a condensation process may actually cause a rapid warmingof the frozen grocery. Moreover, if the state of the art carrier bagaccording to DE 89 04 678 is carried by a walking person in a warm airenvironment, the movement would appear to inherently cause an exchangeof air between the bag interior, which is chilled by the frozengroceries, and the warmer air surrounding the carrier bag, and this airexchange process will further drive the process of condensing vapourinto liquid water by supplying new warm air to surfaces of the frozengroceries. Not only does this process cause thawing of initially frozengroceries and warming of initially chilled groceries, but it may alsoproduce liquid water by condensation inside the carrier bag, which mayjeopardize the integrity of the bag bottom or side wall, since it ismade solely of paper, according to DE 89 04 678. Thus, the strength ofcarrier bag made solely of paper may decrease, and the risk of breakingincreases when the paper-only-carrier bag becomes wet.

By contrast, the collapsible handle-carryable grocery carrier chill bagaccording to the above defined solution comprises a mechanical interlockwhich is closable such that, in the closed expanded state of the carrierbag, the mechanical interlock cooperates with said wall panels and saidbottom panel so as to close and substantially seal the interior storagespace from the environment so as to minimize or prevent entry of airfrom the environment into the interior storage space such that when agrocery package comprising frozen food is transported in said interiorstorage space the grocery bag is adapted to minimize or prevent theoccurrence of condensation within the interior storage space.

Thus, for example, if a carrier bag, having a volume of 50 litres in theexpanded state of the carrier bag, is filled by 75% with frozengroceries, there will remain about 25% of the total volume which can befilled by air in connection with the loading of the bag. Thus, as anexample, about 12.5 liters of air having an initial temperature of about18 degrees Centigrade and, about 10 grams of water per cubic metre(example relating to approximate average absolute outdoor humidity insouthern Sweden in the month of July) may be enclosed in the bag when itis sealed after packing. In this connection it is noted that the term“litre” means “metric litre” i.e. one litre equals one cubic decimetre.Accordingly, the 12.5 liters of contained air may include about 0.125grams of water in vapour form. Air contained within the bag togetherwith frozen groceries may be caused to cool, and during this decreasingof the air temperature the water vapour in that air may first condenseinto water, releasing 0.2825 kJ of energy, and then it may freezereleasing 0.04175 kJ of energy. Thus, the two phase changes during thetransformation of 0.125 grams of water from vapour form into ice maydeliver 0.324 kJ. The energy released may suffice to increase thetemperature of 10 kg of frozen water by less than half a degreeCentigrade. According to an estimate it would be about 0.008 degreesCentigrade. The energy released by cooling the 0.125 grams of water by19 degrees Centigrade is comparatively small and may actually beregarded as negligible is comparison. In effect, the grocery bag beingadapted to minimize or prevent entry of air from the environment intothe interior storage space advantageously contributes to maintaining thefrozen or chilled state of the groceries for a significantly extendedduration of time, while also preserving the integrity of the carrier bagby minimizing or preventing the formation of liquid water within theinterior storage space, and by the kraft paper layer having asubstantially water vapour impermeable membrane bonded to at least oneside of the kraft paper layer, thereby reducing or preventing paperdisintegration due to paper wetness.

According to another aspect of the invention, a problem to be addressedis how to achieve an improved, yet cost-efficient, transportation ofgrocery items.

This problem is addressed by Embodiment C2. A collapsiblehandle-carryable grocery carrier chill bag (20) for use in an airatmosphere environment, the carrier bag having

-   -   a collapsed state (20A) for enabling transportation of the        carrier bag in a substantially flat state, and    -   an expanded state such that the carrier bag, in its expanded        state, provides an interior storage space for transporting        chilled and/or frozen grocery packages, the carrier bag        comprising:    -   a paper layer being shaped and folded so as to form        -   a front wall panel (S1A),        -   a back wall panel (S1B),        -   two side wall panels (S2A, S2B); and        -   a bottom panel; wherein the wall panels and the bottom panel            cooperate to form said interior storage space to a volume            larger than 10 litres in the expanded state of the carrier            bag; and    -   wherein a rim portion of the wall panels facing away from the        bag bottom panel provides a bag opening; the carrier bag further        comprising    -   a first handle being associated with said rim portion of said        front wall panel (S1A) so as to allow gripping by a human hand        such as to enable carrying of the grocery carrier bag; and        wherein    -   said paper layer is a kraft paper layer; said kraft paper layer        having a substantially water vapour impermeable membrane bonded        to at least one side of the kraft paper layer; and wherein    -   the carrier bag has        -   an open expanded state for loading and/or unloading grocery            packages to be transported, and        -   a closed expanded state such that the carrier bag, in its            closed expanded state, provides a substantially closed            interior storage space for transporting chilled and/or            frozen grocery packages; wherein    -   the bag opening is a closable opening which, in the closed        expanded state of the carrier bag cooperates with said wall        panels and said bottom panel so as to minimize or prevent entry        of air from the environment into the interior storage space.

Embodiment C3

The collapsible handle-carryable grocery carrier bag according toEmbodiment C1 or C2, wherein

-   -   the substantially water vapour impermeable membrane is bonded to        the side of the kraft paper layer facing the interior storage        space of the bag.

Embodiment C4

The collapsible handle-carryable grocery carrier bag according toEmbodiment C1 or C2,

wherein

-   -   the substantially water vapour impermeable membrane is bonded to        the side of the kraft paper layer facing the outside of the bag.

This solution advantageously allows user to place bag on ground evenwhen its rainy and wet without causing deteriorated strength of the bag,since the water vapour impermeable membrane may prevent or minimize theabsorption, by the kraft paper, of any water deposited on the exteriorsurface of the bag.

Embodiment C5

The collapsible handle-carryable grocery carrier bag according to anypreceding Embodiment C, wherein

-   -   said substantially water vapour impermeable membrane comprises a        polymer layer.

Embodiment C6

The collapsible handle-carryable grocery carrier bag according to anypreceding Embodiment C, wherein

-   -   said polymer layer is a PE layer.

Embodiment C7

The collapsible handle-carryable grocery carrier bag according to anypreceding Embodiment C, wherein

-   -   said polymer layer is a layer of Polyethylene.

Embodiment C8

The collapsible handle-carryable grocery carrier bag according toEmbodiment C 2 or any preceding Embodiment C when dependent onEmbodiment C 2, wherein

-   -   the carrier bag has a closure means attached to said rim        portion; said closure means being arranged and positioned to        allow        -   the open expanded state of the carrier bag for loading            and/or unloading grocery packages to be transported, and        -   the closed expanded state of the carrier bag such that the            carrier bag, in its closed expanded state, provides a            substantially sealed interior storage space suitable for            transporting chilled and/or frozen grocery packages; wherein    -   the closure means is closable such that, in the closed expanded        state of the carrier bag, the closure means cooperates with said        wall panels and bottom panel so as to close and substantially        seal the interior storage space from the environment so as to        minimize or prevent entry of air from the environment into the        interior storage space.

Embodiment C9

The grocery carrier bag according to according to Embodiment C 2 or anypreceding Embodiment C when dependent on Embodiment C 2, wherein

-   -   the carrier bag has a closure means attached to said rim        portion; said closure means, in the closed expanded state of the        carrier bag, cooperating with said wall panels and said bottom        panel such that, when a grocery package comprising frozen food        is transported in said interior storage space, the grocery bag        is adapted to minimize or prevent the occurrence of condensation        within the interior storage space.

Embodiment C10

The grocery carrier bag according to according to Embodiment C 8 or C9,wherein

-   -   Said closure means includes        -   a first elongated closure element, and        -   a second elongated closure element.

Embodiment C11

The grocery carrier bag according to according to any precedingEmbodiment C when dependent on Embodiment C 1, wherein

-   -   said mechanical interlock includes        -   a first elongated closure element, and        -   a second elongated closure element.

Embodiment C12

The grocery carrier bag according to according to Embodiment C 10 or 11,wherein

-   -   the first elongated closure element is attached to an interior        surface of the rim portion of the front panel and to a part of        an interior surface of the rim portion of a side panel; and        wherein    -   the first and second elongated closure elements are positioned        and adapted for mating with each other so as to achieve closing        of the opening.

Embodiment C13

The grocery carrier bag according to Embodiment C 12 when dependent onEmbodiment C 2; wherein

-   -   the first handle comprises a paper strip formed in a U-shape and        having two paper strip end portions; the paper strip end        portions of the first handle being attached to said rim portion        of said front wall panel (S1A).

Embodiment C14

The grocery carrier bag according to Embodiment C 13 or any precedingEmbodiment C when dependent on Embodiment C 1, further comprising

-   -   a first substantially planar reinforcement sheet having a        certain size; the first substantially planar reinforcement sheet        having a first sheet surface ( ) and a second sheet surface ( )        on opposite sides of the substantially planar reinforcement        sheet; wherein    -   the first reinforcement sheet is attached to the paper strip end        portions of the first handle and to said rim portion of said        front wall panel (S1A) such that said paper strip end portions        of the first handle are located between the front wall panel        (S1A) and the reinforcement sheet.

This first reinforcement sheet advantageously operates to distribute thelifting force from the first handle paper strip end portions to a largersurface area of the front wall panel (S1A).

Embodiment C15

The grocery carrier bag according to Embodiment C 14, wherein

-   -   The first surface of the first reinforcement sheet faces the        paper strip end portions of the first handle and said rim        portion of said front wall panel (S1A); said first surface of        the first reinforcement sheet being bonded to the paper strip        end portions of the first handle and said rim portion of said        front wall panel (S1A) so as to distribute lifting force from        said paper strip end portions to said front wall panel via said        first reinforcement sheet.

Embodiment C16

The grocery carrier bag according to Embodiment C 14 or 15 whendependent on Embodiment C 12, or any preceding Embodiment C, wherein

-   -   the first elongated closure element is integrated with a second        substantially planar reinforcement sheet, the second        reinforcement sheet having a predetermined area extension which        is larger than the certain size of the first substantially        planar reinforcement sheet; wherein    -   the second substantially planar reinforcement sheet is attached        to the first reinforcement sheet and to said rim portion of said        front wall panel (S1A) such that the first reinforcement sheet        is located between the front wall panel (S1A) and the second        substantially planar reinforcement sheet.

Embodiment C17

The grocery carrier bag according to Embodiment C 16, wherein

-   -   the second substantially planar reinforcement sheet is bonded to        the second sheet surface of the first substantially planar        reinforcement sheet so as to distribute lifting force from said        first substantially planar reinforcement sheet to said front        wall panel via said second reinforcement sheet.

Embodiment C18

The grocery carrier bag according to Embodiment C 16 or 17, wherein

-   -   the second substantially planar reinforcement sheet comprises        polymer material.

Embodiment C19

The grocery carrier bag according to Embodiment C 16, 17, or 18, wherein

-   -   the second substantially planar reinforcement sheet comprises        paper.

Embodiment C20

The grocery carrier bag according to any of Embodiment Cs 16-19, wherein

-   -   a second substantially planar reinforcement sheet is attached to        an interior surface of the rim portion of the front panel and to        a part of an interior surface of the rim portion of a side        panel.

Embodiment C21

The grocery carrier bag according to any of Embodiment Cs 14-20, wherein

-   -   the paper strip end portions of the first handle and said first        reinforcement sheet are sized and dimensioned so as to withstand        a force exceeding 100 Newton.

Embodiment C22

The grocery carrier bag according to Embodiment C 12 when dependent onEmbodiment C 2; wherein

-   -   said rim portion of said front wall panel (S1A) comprises at        least one die cut opening so as to form the first handle; and        wherein    -   the first elongated closure element is attached to an interior        surface of the rim portion of the front panel between said at        least one die cut opening and said bag bottom panel.

This location of the closure element advantageously enables theprovision of a handle formed by a die cut opening while also enablingthe closing and sealing of the interior storage space.

Embodiment C23

The grocery carrier bag according to Embodiment C 12 when dependent onEmbodiment C 2; wherein

-   -   said rim portion of said front wall panel (S1A) comprises at        least one die cut opening so as to form the first handle; and        wherein    -   the first elongated closure element is attached to an interior        surface of the rim portion of the front panel between said at        least one die cut opening and said bag bottom panel such that        said at least one die cut opening does not interfere with said        closable interior storage space.

Embodiment C24

The grocery carrier bag according to any preceding Embodiment C whendependent on Embodiment C 2, wherein

-   -   said paper layer is a kraft paper layer having a surface weight        of at least 100 grams per square meter.

Embodiment C25

The grocery carrier bag according to any preceding Embodiment C, wherein

-   -   said kraft paper layer comprises a certain amount of air being        trapped within the kraft paper layer.

Embodiment C26

The grocery carrier bag according to any preceding Embodiment C, wherein

-   -   said kraft paper layer comprises a plurality of Kraft Pulp        Fibres which are arranged one above the other so as to form        plural air gaps within the kraft paper layer.

Embodiment C27

The grocery carrier bag according to any preceding Embodiment C, wherein

-   -   said kraft paper layer comprises a plurality of Kraft Pulp        Fibres which are arranged one above the other so as to form        plural air gaps within the kraft paper layer; wherein at least        some of the Kraft Pulp Fibres have a length in the range between        1 and 3 mm and/or a width in the range between 10 and 50        micrometer; and wherein    -   at least some of said plural air gaps have a volume exceeding        200 000 cubic micrometers.

Embodiment C28

The grocery carrier bag according to any preceding Embodiment C, wherein

-   -   said paper layer being shaped and folded so as to form        -   the front wall panel (S1A),        -   the back wall panel (S1B), and        -   the side wall panels (S2A, S2B) consists of said kraft paper            layer a single substantially water vapour impermeable            membrane bonded to at least one side of the kraft paper            layer.

This solution enables an advantageously cost-efficient production of thegrocery carrier bag in that few production method steps are requiredwhen only a single layer of water vapour impermeable material need bebonded to the kraft paper layer.

Embodiment C29

The grocery carrier bag according to any preceding Embodiment C, wherein

-   -   said paper layer is a kraft paper layer having a surface weight        of less than 140 grams per square meter.

Embodiment C30

The grocery carrier bag according to any preceding Embodiment C, wherein

-   -   said paper layer is a kraft paper layer having a surface weight        of less than 140 grams per square meter.

Embodiment C31

The collapsible handle-carryable grocery carrier bag according to anypreceding Embodiment C, wherein

-   -   the bottom panel is substantially rectangular.

Embodiment C32

The collapsible handle-carryable grocery carrier bag according to anypreceding Embodiment C, wherein

-   -   the paper layer is shaped and folded so as to form        -   the front wall panel (S1A) such that it exhibits a first            certain width at a folding edge where the front wall panel            (S1A) meets the bottom panel, and wherein    -   the paper layer is shaped and folded such that the front wall        panel (S1A) exhibits a second certain width at the rim portion        facing away from the bag bottom panel;    -   said second certain width being longer than said first certain        width.

Embodiment C33

The collapsible handle-carryable grocery carrier bag according toEmbodiment C 32, wherein

-   -   the paper layer is shaped and folded so as to form        -   the back wall panel (S1B) such that it exhibits            substantially said first certain width at a folding edge            where the back wall panel (S1B) meets the bottom panel, and            wherein    -   the paper layer is shaped and folded such that the back wall        panel (S1B) exhibits substantially said second certain width at        the rim portion facing away from the bag bottom panel.

Embodiment C34

The collapsible handle-carryable grocery carrier bag according to anypreceding Embodiment C, wherein

-   -   said substantially water vapour impermeable membrane is bonded        to the side of the kraft paper layer facing the interior storage        space.

Embodiment C35

The collapsible handle-carryable grocery carrier bag according to anypreceding Embodiment C, further comprising:

-   -   a second handle adapted to allow gripping by a human hand for        enabling carrying of the grocery carrier bag, the second handle        comprising a paper strip formed in a U-shape and having two        paper strip end portions; the paper strip end portions of the        second handle being attached to said rim portion of said back        wall panel (S1A).

Embodiment C36

The collapsible handle-carryable grocery carrier bag according to anypreceding Embodiment C, wherein

-   -   the interior storage space of the bag, in its expanded state,        has a cross-sectional area substantially parallel to the plane        of the bag bottom panel,        -   the cross-sectional area shrinking towards the closable            opening such that grocery carrier bag, in its closed and            expanded state, has a generally tapered shape, as seen in a            line of view substantially parallel to        -   the plane of the front wall panel and        -   the plane of the bottom panel.

Embodiment C37

A kit of parts, comprising

-   -   a collapsible handle-carryable grocery carrier bag according to        any preceding Embodiment C; and    -   an insulator device for placement towards the front wall panel

Embodiment C38

A kit of parts, comprising

-   -   a collapsible handle-carryable grocery carrier bag according to        any preceding Embodiment C; and    -   an insulator device for placement on the bottom panel in the        interior storage space so as to reduce heat transfer through        said bottom panel.

Embodiment C39

A kit of parts, comprising

-   -   a collapsible handle-carryable grocery carrier bag according to        any preceding Embodiment C; and    -   an insulator device for placement towards the front wall panel        (S1A) in the interior storage space so as to reduce heat        transfer through said front wall panel (S1A).

Embodiment C40

A method for providing a collapsible carrier bag, the method comprising:

-   -   providing a substantially planar sheet of a multilayer material;        the substantially planar sheet having a first sheet surface and        a second sheet surface on opposite sides of the substantially        planar sheet; the multilayer material comprising a layer of        kraft paper having a substantially water vapour impermeable        membrane bonded to at least one side of the kraft paper layer;    -   cutting the planar sheet according to a pre-determined pattern        so that a resulting planar sheet has at least two edges;    -   forming or folding the multilayer sheet into a substantially        tubular shape such that the at least two edges overlap so as to        allow a first overlap area of the first sheet surface to meet a        second overlap area of the second sheet surface and so that the        first sheet surface forms an interior surface of the-bag-to-be;    -   attaching the first overlap area to the second overlap area,        e.g. by gluing or melt-bonding;    -   forming or folding the multilayer sheet so as to form a front        panel (S1A), a back panel (S1B), and two mutually opposing side        panels (S2A, S2B) of the-bag-to-be;    -   forming or folding the multilayer sheet so as to create a bottom        portion of the-bag-to-be so that the bottom portion connects the        panels (S1A, S1B, S2A, S2B), thereby obtaining a        semi-manufactured bag which in an expanded state exhibits four        wall panels, a bag bottom panel and a bag opening formed by an        opening rim of the four wall panels facing away from the bag        bottom;    -   collapsing the semi-manufactured bag by folding along a folding        edge where the front panel (S1A) connects with the bottom panel        and providing a mid-fold in each of the side panels (S2A, S2B),        the mid-fold of a side panel running in a direction        substantially parallel to a fold where that side panel (S2A,        S2B) connects with the front panel; wherein the collapsing step        is performed such that a side panel mid-fold is bent outwardly        so as to cause a front most interior surface portion of that        side panel to face a back most secondary interior surface        portion of that side panel;    -   providing a first elongated closure element, and providing a        second elongated closure element; the first and second elongated        closure elements being adapted for mating with each other;    -   attaching the first elongated closure element to the interior        surface of the front panel and to the interior surface of the        front most portion of a side panel substantially in the vicinity        of the opening rim; and    -   attaching the second elongated closure element to the interior        surface of the back panel and to the interior surface of the        back most portion of a side panel substantially in the vicinity        of the opening rim such that the first elongated closure element        and the second elongated closure element are aligned with each        other so as to form a mechanical interlock which, in a closed        state, is adapted to provide a substantially water vapour        impermeable seal;    -   providing a handle for allowing a user to carry the carrier bag;        the handle being associated with the front panel (S1A) and the        back panel (S1B).

Embodiment C41

A method for providing a carrier bag; the method comprising:

-   -   providing a carrier bag having a carrier bag enclosure formed by        -   a front wall panel (S1A),        -   a back wall panel (S1B),        -   two mutually opposing side wall panels (S2A, S2B);        -   a substantially square bottom portion; wherein the wall            panels and the bottom portion cooperate to form said            enclosure; and wherein a portion of the wall panels facing            away from the bag bottom comprises a closable enclosure            opening.

Embodiment C42

A method for providing a carrier bag, the method comprising:

-   -   providing a collapsible carrier bag having        -   a collapsed state for enabling transportation of the carrier            bag in a substantially flat state, and        -   an expanded state for transporting food items in a carrier            bag enclosure which, in the expanded state of the carrier            bag, has a volume larger than 10 litres; the carrier bag            further having        -   a front wall panel (S1A),        -   a back wall panel (S1B),        -   two mutually opposing side wall panels (S2A, S2B);        -   a substantially square bottom portion; wherein the wall            panels and the bottom portion cooperate to form said            enclosure; and wherein a portion of the wall panels facing            away from the bag bottom comprises a closable enclosure            opening.

Embodiment C43

A method of delivering chilled groceries, the method comprising:

-   -   providing a collapsible grocery carrier bag, e.g. according to        any of Embodiment Cs 1-35, in a collapsed state;        -   expanding the collapsible grocery carrier bag in an            environment having a certain relative air humidity;    -   loading chilled or frozen groceries into the interior storage        space; and    -   transporting the loaded grocery carrier bag to a destination.

Embodiment C44

The collapsible handle-carryable grocery carrier chill bag according toany of Embodiment Cs 1-36, further comprising

-   -   an insulator device for placement on the bottom panel in the        interior storage space so as to reduce heat transfer through        said bottom panel.

Embodiment C45

The chill bag according to Embodiment C 44, wherein

-   -   the insulator device is arranged and positioned on at least a        portion of the bottom panel in the interior storage space so as        to reduce heat transfer through said bottom panel.

Embodiment C46

The chill bag according to Embodiment C 44 or 45, wherein

-   -   the insulator device comprises a piece of material; said piece        of material being shaped and adapted to provide cellular air        cushions so as to reduce heat transfer through said bottom        panel.

Embodiment C47

The chill bag according to any of Embodiment Cs 44-46, wherein

-   -   said piece of material comprises paper.

Embodiment C48

The chill bag according to any of Embodiment Cs 44-47, wherein

-   -   said piece of material comprises a substantially water vapour        impermeable material.

This solution advantageously enables the insulator device to withstand adamp or wet environment without absorbing water.

Embodiment C49

The chill bag according to any of Embodiment Cs 46-48, wherein

-   -   said piece of material comprises at least one layer of a polymer        material.

Embodiment C50

The chill bag according to any of Embodiment Cs 46-48, wherein

-   -   said piece of material comprises at least one layer of a plastic        material.

This solution advantageously enables the insulator device to withstand adamp or wet environment without absorbing water.

Embodiment C51

The chill bag according to any of Embodiment Cs 46-50, wherein

-   -   said piece of material comprises BubbleWrap®.

Embodiment C52

The chill bag according to any of Embodiment Cs 47-49, wherein

-   -   said piece of paper material has a substantially water vapour        impermeable membrane bonded to at least one side of the paper        material.

This solution advantageously enables the insulator device to withstand adamp or wet environment without absorbing water.

Embodiment C53

The chill bag according to any of Embodiment Cs 44-49 or 52, wherein

-   -   the insulator device comprises a piece of card board paper        material; said piece of card board paper material being shaped        and adapted to reduce heat transfer through said bottom panel.

Embodiment C54

A kit of parts, comprising

-   -   a collapsible handle-carryable grocery carrier bag according to        any of Embodiment Cs 1-36; and    -   an insulator device for placement on the bottom panel in the        interior storage space so as to reduce heat transfer through        said bottom panel.

Embodiment C55

The kit of parts according to Embodiment C 54, wherein

-   -   the insulator device is adapted for positioning on at least a        portion of the bottom panel in the interior storage space so as        to reduce heat transfer through said bottom panel.

Embodiment C56

The kit of parts according to Embodiment C 54 or 55, wherein

-   -   the insulator device comprises a piece of material; said piece        of material being shaped and adapted to provide cellular air        cushions so as to reduce heat transfer through said bottom        panel.

Embodiment C57

The kit of parts according to any of Embodiment Cs 54-56, wherein

-   -   said piece of material comprises at least one layer of a plastic        material.

This solution advantageously enables the insulator device to withstand adamp or wet environment without absorbing water.

Embodiment C58

The kit of parts according to any of Embodiment Cs 54-56, wherein

said piece of material comprises a paper layer; said paper layer havinga substantially water vapour impermeable membrane bonded to at least oneside of the paper layer.

This solution advantageously enables the insulator device to withstand adamp or wet environment without absorbing water.

Embodiment C59

The kit of parts according to any of Embodiment Cs 54-58, wherein

-   -   said piece of material comprises a piece of BubbleWrap®.

Embodiment C60

A collapsible grocery inner chill bag ( ) ;

the inner chill bag having

-   -   a collapsed state (20A) for enabling transportation of the inner        chill bag in a substantially flat state, and    -   an expanded state such that the inner chill bag, in its expanded        state, provides a second interior storage space for transporting        chilled and/or frozen grocery packages, the inner chill bag        comprising:        -   a inner wall panels (S1A); and        -   an inner bottom panel; wherein the inner wall panels and the            inner bottom panel cooperate to form said second interior            storage space; and    -   wherein a second rim portion of the inner wall panels facing        away from the inner bottom panel provides an inner bag opening;        and wherein    -   the inner chill bag has        -   an open expanded state for loading and/or unloading grocery            packages to be transported, and        -   a closed expanded state such that the inner chill bag, in            its closed expanded state, provides a substantially closed            second interior storage space for transporting chilled            and/or frozen grocery packages; wherein    -   the inner bag opening is a closable opening which, in the closed        expanded state of the inner chill bag cooperates with said inner        wall panels and said inner bottom panel so as to minimize or        prevent entry of air from the environment into the second        interior storage space.

Embodiment C61

A collapsible grocery inner chill bag ( ) for use inside of the carrierbag according to any of Embodiment Cs 1-36 and/or any of Embodiment Cs44-53;

the inner chill bag having

-   -   a collapsed state (20A) for enabling transportation of the inner        chill bag in a substantially flat state, and    -   an expanded state such that the inner chill bag, in its expanded        state, provides a second interior storage space for transporting        chilled and/or frozen grocery packages, the inner chill bag        comprising:    -   inner walls and an inner bottom cooperating to form said second        interior storage space; and    -   wherein a second rim portion of the inner walls facing away from        the inner bottom provides an inner bag opening; and wherein    -   the inner chill bag has        -   an open expanded state for loading and/or unloading grocery            packages to be transported, and        -   a closed expanded state such that the inner chill bag, in            its closed expanded state, provides a substantially closed            second interior storage space for transporting chilled            and/or frozen grocery packages; wherein    -   the inner bag opening is a closable opening which, in the closed        expanded state of the inner chill bag cooperates with said inner        walls and said inner bottom so as to minimize or prevent entry        of air from the environment into the second interior storage        space.

Embodiment C62

The collapsible grocery inner chill bag according to Embodiment C 60 or61; wherein

-   -   the inner chill bag, in its expanded state, is shaped and        dimensioned to fit inside of the carrier bag according to any of        Embodiment Cs 1-36 and/or any of Embodiment Cs 44-53.

Embodiment C63

The collapsible grocery inner chill bag according to any of EmbodimentCs 60-62; wherein

-   -   the inner walls comprise        -   an inner front wall panel (S1A),        -   an inner back wall panel (S1B),        -   two inner side wall panels (S2A, S2B); and wherein    -   the inner bottom comprises an inner bottom panel; wherein the        inner wall panels and the inner bottom panel cooperate to form        said second interior storage space.

Embodiment C64

The collapsible grocery inner chill bag according to any of Embodiment C63; wherein

-   -   the carrier bag comprises a paper layer being shaped and folded        so as to form        -   said inner front wall panel (S1A),        -   said inner back wall panel (S1B),        -   said inner two side wall panels (S2A, S2B); and        -   said inner bottom panel.

Embodiment C65

The collapsible grocery inner chill bag according to any of EmbodimentCs 60-64; wherein

-   -   the wall panels and the bottom panel cooperate to form said        interior storage space to a volume larger than 2 litres in the        expanded state of the carrier bag;

Embodiment C66

The collapsible grocery inner chill bag according to any of EmbodimentCs 60-65; wherein

-   -   a first handle is associated with said rim portion of said front        wall panel (S1A) so as to allow gripping by a human hand such as        to enable carrying of the grocery carrier bag.

Embodiment C67

The collapsible grocery inner chill bag according to Embodiment C 64 orany of Embodiment Cs 65 or 66 when dependent on Embodiment C 64; wherein

-   -   said paper layer is a kraft paper layer; said kraft paper layer        having a substantially water vapour impermeable membrane bonded        to at least one side of the kraft paper layer;

Embodiment C68

The collapsible grocery inner chill bag according to any of EmbodimentCs 60-67; wherein

-   -   the substantially water vapour impermeable membrane is bonded to        the side of the kraft paper layer facing the second interior        storage space of the bag.

Embodiment C69

The collapsible grocery inner chill bag according to any of EmbodimentCs 60-68; wherein

-   -   the substantially water vapour impermeable membrane is bonded to        the side of the kraft paper layer facing the outside of the bag.

This solution advantageously prevents or minimizes absorption, by thekraft paper, of any water deposited on the exterior surface of the bag.

Embodiment C70

The collapsible grocery inner chill bag according to any of EmbodimentCs 60-69; wherein

-   -   said substantially water vapour impermeable membrane comprises a        polymer layer.

Embodiment C71

The collapsible grocery inner chill bag according to Embodiment C 70;wherein

-   -   said polymer layer is a PE layer.

Embodiment C72

The collapsible grocery inner chill bag according to Embodiment C 70;wherein

-   -   said polymer layer is a layer of Polyethylene.

Embodiment C73

The collapsible grocery inner chill bag according to any of EmbodimentCs 60-72; wherein

-   -   the inner chill bag has an inner closure means attached to said        rim portion; said inner closure means being arranged and        positioned to allow        -   a) the open expanded state of the inner chill bag for            loading and/or unloading grocery packages to be transported,            and        -   b) the closed expanded state of the inner chill bag such            that the inner chill bag, in its closed expanded state,            provides a substantially sealed second interior storage            space suitable for transporting chilled and/or frozen            grocery packages; wherein    -   the inner closure means is closable such that, in the closed        expanded state of the inner chill bag, the inner closure means        cooperates with said inner wall panels and said inner bottom        panel so as to close and substantially seal the second interior        storage space from the environment so as to minimize or prevent        entry of air from the environment into the interior storage        space.

Embodiment C74

The collapsible grocery inner chill bag according to any of EmbodimentCs 60-73; wherein

-   -   the chill bag has an inner closure means attached to said rim        portion; said inner closure means, in the closed expanded state        of the inner chill bag, cooperating with said inner wall panels        and said inner bottom panel such that, when a grocery package        comprising frozen food is transported in said interior storage        space, the inner chill bag is adapted to minimize or prevent the        occurrence of condensation within the second interior storage        space.

Embodiment C 75

The collapsible grocery inner chill bag according to Embodiment C 73 or74; wherein

-   -   Said inner closure means includes        -   a first elongated inner bag closure element, and        -   a second elongated inner bag closure element.

Embodiment C 76

The collapsible grocery inner chill bag according to according toEmbodiment C 75, wherein

-   -   the first elongated inner bag closure element is attached to an        interior surface of the rim portion of the inner front wall        panel and to a part of an interior surface of the rim portion of        an inner side wall panel; and wherein    -   the first and second elongated inner bag closure elements are        positioned and adapted for mating with each other so as to        achieve closure of the opening.

Embodiment C 77

The collapsible grocery inner chill bag according to Embodiment C 66;wherein

-   -   the first inner bag handle comprises a paper strip formed in a        U-shape and having two paper strip end portions; the paper strip        end portions of the first inner bag handle being attached to        said rim portion of said inner front wall panel (S1A).

Embodiment C78

The collapsible grocery inner chill bag according to Embodiment C 77;further comprising:

-   -   a first substantially planar inner bag reinforcement sheet        having a certain size; the first substantially planar inner bag        reinforcement sheet having a first sheet surface ( ) and a        second sheet surface ( ) on opposite sides of the substantially        planar inner bag reinforcement sheet; wherein    -   the first inner bag reinforcement sheet is attached to the paper        strip end portions of the first handle and to said rim portion        of said inner front wall panel (S1A) such that said paper strip        end portions of the first handle are located between the inner        front wall panel (S1A) and the inner bag reinforcement sheet.

This first inner bag reinforcement sheet advantageously operates todistribute the lifting force from the first handle paper strip endportions to a larger surface area of the front wall panel (S1A).

Embodiment C 79

The collapsible grocery inner chill bag according to Embodiment C 78,wherein

-   -   the first surface of the first reinforcement sheet faces the        paper strip end portions of the first handle and said rim        portion of said front wall panel (S1A); said first surface of        the first reinforcement sheet being bonded to the paper strip        end portions of the first handle and said rim portion of said        front wall panel (S1A) so as to distribute lifting force from        said paper strip end portions to said front wall panel via said        first reinforcement sheet.

Embodiment C 80

The collapsible grocery inner chill bag according to Embodiment C 14 or15 when dependent on Embodiment C 12, or any preceding Embodiment C,wherein

-   -   the first elongated closure element is integrated with a second        substantially planar reinforcement sheet, the second        reinforcement sheet having a predetermined area extension which        is larger than the certain size of the first substantially        planar reinforcement sheet; wherein    -   the second substantially planar reinforcement sheet is attached        to the first reinforcement sheet and to said rim portion of said        front wall panel (S1A) such that the first reinforcement sheet        is located between the front wall panel (S1A) and the second        substantially planar reinforcement sheet.

Embodiment C81

The collapsible grocery inner chill bag according to Embodiment C 80,wherein

-   -   the second substantially planar reinforcement sheet is bonded to        the second sheet surface of the first substantially planar        reinforcement sheet so as to distribute lifting force from said        first substantially planar reinforcement sheet to said front        wall panel via said second reinforcement sheet.

Embodiment C82

The collapsible grocery inner chill bag according to Embodiment C 80 or81, wherein

-   -   the second substantially planar reinforcement sheet comprises        polymer material.

Embodiment C 83

The collapsible grocery inner chill bag according to Embodiment C 80,81, or 82, wherein

-   -   the second substantially planar reinforcement sheet comprises        paper.

Embodiment C 84

The collapsible grocery inner chill bag according to any of EmbodimentCs 80-83, wherein

-   -   the second substantially planar reinforcement sheet is attached        to an interior surface of the rim portion of the front panel and        to a part of an interior surface of the rim portion of a side        panel.

Embodiment C 85

The collapsible grocery inner chill bag according to any of EmbodimentCs 78-84, wherein

-   -   the paper strip end portions of the first handle and said first        reinforcement sheet are sized and dimensioned so as to withstand        a force exceeding 100 Newton.

Embodiment C86

The collapsible grocery inner chill bag according to any of EmbodimentCs 60-76; wherein

-   -   said rim portion of said inner front wall panel (S1A) comprises        at least one first die cut opening, and said rim portion of said        inner back wall panel (S1A) comprises at least one second die        cut opening said first and second die cut openings being shaped        and adapted to form the first handle.

This solution advantageously allows for a cost effective manufacturingprocess of the inner chill bag, since the handle may be produced bycutting openings in the rim portions of the inner front and back wallpanels.

Embodiment C87

The collapsible grocery inner chill bag according to Embodiment C 86when dependent on Embodiment C 75 or 76; wherein

-   -   said rim portion of said front wall panel (S1A) comprises at        least one die cut opening so as to form the first handle; and        wherein    -   the first elongated inner bag closure element is attached to an        interior surface of the rim portion of the front panel between        said at least one die cut opening and said bag bottom panel such        that said at least one die cut opening does not interfere with        said second interior storage space.

According to an embodiment the first elongated closure element isattached to an interior surface of the rim portion of the front panelbetween said at least one die cut opening and said bag bottom panel.

This location of the closure element advantageously enables theprovision of a handle formed by a die cut opening while also enablingthe closing and sealing of the interior storage space.

Embodiment C88

The collapsible grocery inner chill bag according to any of EmbodimentCs 60-87; wherein

-   -   said paper layer is a kraft paper layer having a surface weight        of at least 80 grams per square meter, or preferably a surface        weight of at least 100 grams per square meter.

Embodiment C89

The collapsible grocery inner chill bag to any of Embodiment Cs 60-88;wherein

-   -   said kraft paper layer comprises a certain amount of air being        trapped within the kraft paper layer.

Embodiment C90

The collapsible grocery inner chill bag according to any of EmbodimentCs 60-89; wherein

-   -   said kraft paper layer comprises a plurality of Kraft Pulp        Fibres which are arranged one above the other so as to form        plural air gaps within the kraft paper layer.

Embodiment C91

The collapsible grocery inner chill bag according to any of EmbodimentCs 60-90; wherein

-   -   said kraft paper layer comprises a plurality of Kraft Pulp        Fibres which are arranged one above the other so as to form        plural air gaps within the kraft paper layer; wherein at least        some of the Kraft Pulp Fibres have a length in the range between        1 and 3 mm and/or a width in the range between 10 and 50        micrometer; and wherein    -   at least some of said plural air gaps have a volume exceeding        200 000 cubic micrometers.

Embodiment C92

The collapsible grocery inner chill bag according to any of EmbodimentCs 64-91; wherein

-   -   said paper layer being shaped and folded so as to form        -   the inner front wall panel (S1A),        -   the inner back wall panel (S1B), and        -   the inner side wall panels (S2A, S2B)

consists of said kraft paper layer and a single substantially watervapour impermeable membrane bonded to at least one side of the kraftpaper layer.

This solution enables an advantageously cost-efficient production of thegrocery chill bag in that few production method steps are required whenonly a single layer of water vapour impermeable material need be bondedto the kraft paper layer.

Embodiment C93

The collapsible grocery inner chill bag according to any of EmbodimentCs 64-92; wherein

-   -   said paper layer is a kraft paper layer having a surface weight        of less than 140 grams per square meter.

Embodiment C94

The collapsible grocery inner chill bag according to any of EmbodimentCs 60-93; wherein

-   -   the inner bottom panel is substantially rectangular.

Embodiment C95

The grocery inner chill bag according to any of Embodiment Cs 60-94;wherein

-   -   the paper layer is shaped and folded so as to form        -   the inner front wall panel (S1A) such that it exhibits a            first certain width at a folding edge where the front wall            panel (S1A) meets the bottom panel, and

wherein

-   -   the paper layer is shaped and folded such that the inner front        wall panel (S1A) exhibits a second certain width at the rim        portion facing away from the inner bag bottom panel;    -   said second certain width being longer than said first certain        width.

Embodiment C96

The grocery inner chill bag according to Embodiment C 95, wherein

-   -   the paper layer is shaped and folded so as to form        -   the inner back wall panel (S1B) such that it exhibits            substantially said first certain width at a folding edge            where the inner back wall panel (S1B) meets the inner bag            bottom panel, and wherein    -   the paper layer is shaped and folded such that the inner back        wall panel (S1B) exhibits substantially said second certain        width at the rim portion facing away from the inner bag bottom        panel.

Embodiment C97

The grocery inner chill bag according to any preceding Embodiment C whendependent on Embodiment C 77; further comprising:

-   -   a second handle adapted to allow gripping by a human hand for        enabling carrying of the grocery inner chill bag, the second        handle comprising a paper strip formed in a U-shape and having        two paper strip end portions; the paper strip end portions of        the second handle being attached to said rim portion of said        inner back wall panel (S1A).

Embodiment C98

The inner chill bag according to any of Embodiment Cs 60-97; wherein

-   -   the second interior storage space of the bag, in its expanded        state, has a second cross-sectional area substantially parallel        to the plane of the inner bag bottom panel,        -   the second cross-sectional area shrinking towards the            closable opening such that grocery inner chill bag, in its            closed and expanded state, has a generally tapered shape, as            seen in a line of view substantially parallel to    -   the plane of the front wall panel and    -   the plane of the bottom panel.

Embodiment C99

The inner chill bag according to any of Embodiment Cs 60-98; furthercomprising

-   -   an inner bag insulator device for placement on the bottom panel        in the second interior storage space so as to reduce heat        transfer through said bottom panel.

Embodiment C100

-   -   The inner chill bag according to Embodiment C 99, wherein the        inner bag insulator device is arranged and positioned on at        least a portion of the inner bottom panel in the second interior        storage space so as to reduce heat transfer through said inner        bottom panel.

Embodiment C101

The inner chill bag according to Embodiment C 99 or 100, wherein

-   -   the inner bag insulator device comprises a piece of material;        said piece of material being shaped and adapted to provide        cellular air cushions so as to reduce heat transfer through said        inner bag bottom panel.

Embodiment C102

The inner chill bag according to Embodiment C 101, wherein

-   -   said piece of material comprises paper.

Embodiment C103

The inner chill bag according to any of Embodiment Cs 101-102, wherein

-   -   said piece of material comprises a substantially water vapour        impermeable material.

This solution advantageously enables the insulator device to withstand adamp or wet environment without absorbing water.

Embodiment C104

The inner chill bag according to any of Embodiment Cs 101-103, wherein

-   -   said piece of material comprises at least one layer of a polymer        material.

Embodiment C105

The inner chill bag according to any of Embodiment Cs 101-104, wherein

-   -   said piece of material comprises at least one layer of a plastic        material.

This solution advantageously enables the insulator device to withstand adamp or wet environment without absorbing water.

Embodiment C106

The inner chill bag according to any of Embodiment Cs 101-105, wherein

-   -   said piece of material comprises BubbleWrap®.

Embodiment C107

The inner chill bag according to any of Embodiment Cs 101-104, wherein

-   -   said piece of paper material has a substantially water vapour        impermeable membrane bonded to at least one side of the paper        material.

This solution advantageously enables the insulator device to withstand adamp or wet environment without absorbing water.

Embodiment C108

The inner chill bag according to any of Embodiment Cs 99-105 or 107,wherein

-   -   the inner bag insulator device comprises a piece of card board        paper material; said piece of card board paper material being        shaped and adapted to reduce heat transfer through said bottom        panel.

Embodiment C109

A kit of parts, comprising

-   -   an inner chill bag according to any of Embodiment Cs 60-98; and    -   an inner bag insulator device for placement on the inner bag        bottom panel in the second interior storage space so as to        reduce heat transfer through said inner bag bottom panel.

Embodiment C110

The kit of parts according to Embodiment C 109, wherein

-   -   the inner bag insulator device is adapted for positioning on at        least a portion of the inner bag bottom panel in the second        interior storage space so as to reduce heat transfer through        said inner bag bottom panel.

Embodiment C111

The kit of parts according to Embodiment C 109 or 110, wherein

-   -   the inner bag insulator device comprises a piece of material;        said piece of material being shaped and adapted to provide        cellular air cushions so as to reduce heat transfer through said        inner bag bottom panel.

Embodiment C112

The kit of parts according to Embodiment C 111, wherein

-   -   said piece of material comprises at least one layer of a plastic        material.

This solution advantageously enables the insulator device to withstand adamp or wet environment without absorbing water.

Embodiment C113

The kit of parts according to any of Embodiment Cs 109-111, wherein

said piece of material comprises a paper layer; said paper layer havinga substantially water vapour impermeable membrane bonded to at least oneside of the paper layer.

This solution advantageously enables the insulator device to withstand adamp or wet environment without absorbing water.

Embodiment C114

The kit of parts according to any of Embodiment Cs 109-112, wherein

-   -   said piece of material comprises a piece of BubbleWrap®.

Embodiment C115

A handle-carryable grocery carrier chill bag package comprising

-   -   a collapsible handle-carryable grocery carrier chill bag        according to any of Embodiment Cs 1-36 and/or any of Embodiment        Cs 44-53; and    -   a collapsible grocery inner chill bag ( ) according to any of        Embodiment Cs 60-108; wherein,    -   the handle-carryable grocery carrier chill bag package, in use,        includes        -   the collapsible grocery inner chill bag in its closed            expanded state; and        -   the collapsible handle-carryable grocery carrier chill bag            in its closed expanded state; and wherein        -   the collapsible grocery inner chill bag is placed in the            interior storage space of the collapsible handle-carryable            grocery carrier chill bag.

This solution advantageously enables the packing of frozen grocerypackages in the second interior storage space. This solution thereforeenjoys a high thermal resistance from a frozen grocery package in thesecond interior storage space to the environment outside of the outerhandle-carryable grocery carrier bag, since any air inside of the firstinterior storage space (100) functions as insulation between the secondinterior storage space and the environment outside of the outerhandle-carryable grocery carrier bag. Additionally, there are doublebarriers for minimizing or preventing entry of air from the environmentoutside of the outer handle-carryable grocery carrier bag into thesecond interior storage space when both of the bags are in their closedexpanded states, since the second interior storage space is sealed bythe closed inner bag as well as by the closed outer bag.

Embodiment C116

The handle-carryable grocery carrier chill bag package according toEmbodiment C 115, wherein,

-   -   the handle-carryable grocery carrier chill bag package, in use,        further comprises:    -   a means for cooling the interior (100) of the bag (20).

Embodiment C117

The handle-carryable grocery carrier chill bag package according toEmbodiment C 116, wherein,

-   -   the means for cooling the interior of the bag comprises a        cooling agent

Embodiment C118

The handle-carryable grocery carrier chill bag package according toEmbodiment C 116 or 117, wherein,

-   -   the means for cooling the interior of the bag comprises a piece        of dry ice.

Embodiment C119

The handle-carryable grocery carrier chill bag package according toEmbodiment C 116, 117, or 118; wherein

-   -   the means for cooling the interior of the bag comprises a        container holding a pressurized gas; said container having a        valve which is settable to a valve state in which the valve        allows pressurized gas to flow out from the pressurized        container so as to attain a cooling effect.

Embodiment C120

The handle-carryable grocery carrier chill bag package according toEmbodiment C 119; wherein

-   -   the pressurized gas comprises pressurized carbon dioxide.

Embodiment C 121

The handle-carryable grocery carrier chill bag package according toEmbodiment C 119; wherein

-   -   the pressurized gas comprises pressurized air.

Embodiment C122

The handle-carryable grocery carrier chill bag package according to anyof Embodiment Cs 119-121; wherein

-   -   one of the walls of the collapsible handle-carryable grocery        carrier chill bag (20) comprises a valve adapted to allow        passage of gas in the direction from the interior storage space        (100) to the surrounding environment.

Embodiment C123

The handle-carryable grocery carrier chill bag package according any ofEmbodiment Cs 116-122; wherein

-   -   the means for cooling the interior of the bag comprises an ice        pack.

Embodiment C124

The handle-carryable grocery carrier chill bag package according toEmbodiment C 123; wherein

-   -   the ice pack comprises a sachet containing a gel that can be        frozen and that, in use, retains a frozen temperature for an        extended period of time.

Embodiment C125

The handle-carryable grocery carrier chill bag package according any ofEmbodiment Cs 116-124; wherein

-   -   the means for cooling the interior of the bag, in use, is placed        in the second interior storage space of the inner chill bag.

Embodiment C126

The handle-carryable grocery carrier chill bag package according any ofEmbodiment Cs 116-125; wherein

-   -   the means for cooling the interior of the bag, in use, is placed        in the interior storage space (100) of the collapsible        handle-carryable grocery carrier chill bag (20).

Embodiment C127

A kit of parts, comprising

-   -   a collapsible handle-carryable grocery carrier chill bag (20)        according to any of Embodiment Cs 1-36 and/or any of Embodiment        Cs 44-53; and    -   a collapsible grocery inner chill bag 0 according to any of        Embodiment Cs 60-108.

Embodiment C128

The kit of parts according to Embodiment C 127, further comprising

-   -   means for cooling the interior of the bag.

Embodiment C129

The collapsible handle-carryable grocery carrier chill bag according toany of Embodiment Cs 1-36 and/or any of Embodiment Cs 44-53; wherein,

-   -   the collapsible handle-carryable grocery carrier chill bag, in        use in its closed expanded state, further includes means for        cooling the interior of the bag.

Embodiment C130

The collapsible handle-carryable grocery carrier chill bag according toEmbodiment C 129; wherein the means for cooling the interior of the bagcomprises a cooling agent

Embodiment C131

The collapsible handle-carryable grocery carrier chill bag according toEmbodiment C 129 or 130, wherein,

-   -   the means for cooling the interior of the bag comprises a piece        of dry ice.

Embodiment C132

The collapsible handle-carryable grocery carrier chill bag according toEmbodiment C 129, 130, or 131; wherein

-   -   the means for cooling the interior of the bag comprises a        container holding a pressurized gas; said container having a        valve which is settable to a valve state in which the valve        allows pressurized gas to flow out from the pressurized        container so as to attain a cooling effect.

Embodiment C133

The collapsible handle-carryable grocery carrier chill bag according toEmbodiment C 132; wherein

-   -   the pressurized gas comprises pressurized carbon dioxide.

Embodiment C134

The collapsible handle-carryable grocery carrier chill bag according toEmbodiment C 132; wherein

-   -   the pressurized gas comprises pressurized air.

Embodiment C135

The collapsible handle-carryable grocery carrier chill bag according toany of Embodiment Cs 132-134; wherein

-   -   one of the walls of the collapsible handle-carryable grocery        carrier chill bag (20) comprises a valve adapted to allow        passage of gas in the direction from the interior storage space        (100) to the surrounding environment.

Embodiment C136

The collapsible handle-carryable grocery carrier chill bag according anyof Embodiment Cs 129-135; wherein

-   -   the means for cooling the interior of the bag comprises an ice        pack.

Embodiment C137

The collapsible handle-carryable grocery carrier chill bag according toEmbodiment C 136; wherein

-   -   the ice pack comprises a sachet containing a gel that can be        frozen and that, in use, retains a frozen temperature for an        extended period of time.

Embodiment C138

The collapsible handle-carryable grocery carrier chill bag according anyof Embodiment Cs 129-137; wherein

-   -   the means for cooling the interior of the bag, in use, is placed        in the interior storage space (100) of the collapsible        handle-carryable grocery carrier chill bag (20).

Embodiment C139

A kit of parts, comprising

-   -   a collapsible handle-carryable grocery carrier chill bag (20)        according to any of Embodiment Cs 1-36 and/or any of Embodiment        Cs 44-53 and/or any of Embodiment Cs129-138; and    -   a means for cooling the interior of the bag.

Embodiment C140

A kit of parts according to Embodiment C 139, further comprising

-   -   a collapsible grocery inner chill bag ( ) according to any of        Embodiment Cs 60-108.

Embodiment C141

The collapsible handle-carryable grocery carrier chill bag according toany of Embodiment Cs 1-36 and/or any of Embodiment Cs 44-53; wherein,

-   -   the collapsible handle-carryable grocery carrier chill bag, in        use in its closed expanded state, further includes    -   an insulator device as defined in any of Embodiment Cs 54-59.

Embodiment D1

A method for providing a collapsible transport container, wherein saidcollapsible carrier bag has a collapsed state for enablingtransportation of the transport container in a substantially flat state,and an expanded state for transporting food items in a transportcontainer enclosure which, the method comprising:

-   -   providing a substantially planar sheet comprising kraft paper;        the substantially planar sheet having a first sheet surface and        a second sheet surface on opposite sides of the substantially        planar sheet; the kraft paper having a substantially water        vapour impermeable membrane bonded to at least one side of the        kraft paper layer;    -   cutting the planar sheet according to a pre-determined pattern        so that a resulting planar sheet has at least two edges;    -   forming or folding the substantially planar sheet such that the        at least two edges overlap so as to allow a first overlap area        of the first sheet surface to meet a second overlap area of the        second sheet surface and so that the first sheet surface forms        an interior surface of the-bag-to-be;    -   attaching the first overlap area to the second overlap area,        e.g. by gluing or melt-bonding;    -   forming or folding the sheet so as to form outer surfaces of the        transport container;    -   providing closure means suitable for closing the transport        container.

Embodiment D2

The method according to Embodiment D 1, further comprising providing ahandle for allowing a user to carry the transport container.

Embodiment D3

The method according to any of the previous Embodiment Ds, furthercomprising forming or folding the sheet so as to form a front panel(S1A), a back panel (S1B), and two mutually opposing side panels (S2A,S2B) of the transport container-to-be.

Embodiment D4

The method according to any of the previous Embodiment Ds, furthercomprising forming or folding the sheet so as to create a bottom portion(BP) of the transport container-to-be.

Embodiment D5

A method according to the previous Embodiment D, where the bottomportion is formed or folded in so that the bottom portion (BP) connectsto the panels (S1A, S1B, S2A, S2B), thereby obtaining asemi-manufactured transport container which in an expanded stateexhibits four wall panels, a bag bottom panel and a bag opening formedby an opening rim of the four wall panels facing away from the bagbottom.

Embodiment D6

The method according to any of the previous Embodiment Ds, furthercomprising the step of collapsing the semi-manufactured transportcontainer.

Embodiment D7

The method according to the previous Embodiment D when used incombination with Embodiment D 3, wherein the collapsing is done byfolding along a folding edge where the front panel (S1A) connects withthe bottom panel (BP) and providing a mid-fold in each of the sidepanels (S2A, S2B), the mid-fold of a side panel running in a directionsubstantially parallel to a fold where that side panel (S2A, S2B)connects with the front panel.

Embodiment D8

The method according to the previous Embodiment D wherein the collapsingstep is performed such that a side panel mid-fold is bent outwardly soas to cause a front most interior surface portion of that side panel toface a back most secondary interior surface portion of that side panel.

The invention claimed is:
 1. A goods transport system comprising: astorage facility for storing chilled goods and/or frozen goods at aninitial goods temperature, the storage facility comprising one orseveral storage rooms having a controlled environment in that thetemperature and the relative humidity of the air in the storage room arecontrolled so as to be kept within certain predetermined ranges, whereinthe chilled goods and/or frozen goods comprise a plurality of differenttypes of chilled goods and/or frozen goods, sorted into differenttemperature ranges, each type of chilled goods and/or frozen goods beingstored in a corresponding storage room having a temperature inaccordance with a temperature range of the corresponding chilled goodsand/or frozen goods, wherein the chilled goods having the initial goodstemperature of equal to or less than eight degrees Centigrade and thefrozen goods having the initial goods temperature of equal to or lessthan zero degrees Centigrade; at least one closable and sealable bag foruse in distribution of the chilled goods and/or frozen goods, whereinsaid closable and sealable bag is collapsible so as to have (a) acollapsed state for enabling transportation of the bag in asubstantially flat state and (b) an expanded state such that the bag, inthe expanded state, provides an interior storage space for transportingchilled goods and/or frozen goods; the storage facility furthercomprising a loading facility for enabling an amount of the chilledgoods and/or frozen goods to be packed into said closable and sealablebag, wherein said bag comprises: a wall configured to enclose saidinterior storage space and comprising: a) a biodegradable paper layerhaving a thermal conductivity of less than 0.2 W/(K*m) and a tensilestrength exceeding 0.133 Newton/square millimeter (mm²), wherein thebiodegradable paper layer is shaped and configured to form the interiorstorage space to a volume of between ten metric liters and one hundredmetric liters in the expanded state; and b) a substantially water vaporimpermeable membrane bonded to at least one side of said biodegradablepaper layer; and c) a closable opening such that the bag has a closedexpanded packed state, wherein the closable opening cooperates with thewall to substantially seal the chilled goods and/or frozen goods in theinterior storage space from the environment so as to minimize or prevententry of said air humidity from the environment into the interiorstorage space so as to minimize or prevent an occurrence of condensationon chilled goods and/or frozen goods such that condensation processheating is minimized or prevented in the interior storage space in theclosed and expanded state; and a delivery vehicle configured totransport the bag in the closed expanded state in an air atmosphereenvironment from the storage facility to a delivery destination, whereinthe air atmosphere environment has an air temperature equal to orgreater than ten degrees Centigrade.
 2. The goods transport systemaccording to claim 1 comprising: a server computer having acommunications port for communication via the Internet.
 3. The goodstransport system according to claim 1, wherein said biodegradable paperlayer comprises a Kraft paper layer.
 4. The goods transport systemaccording to claim 1, wherein said substantially water vapor impermeablemembrane comprises a biodegradable material.
 5. The goods transportsystem according to claim 1, wherein the wall consists of one or morebiodegradable materials and the biodegradable paper layer comprises aKraft paper layer.
 6. The goods transport system according to claim 1,wherein the bag, when in use for transporting chilled and/or frozengoods, is configured to enable a human to carry the bag such that acenter of gravity of the closed packed bag is less than 10 centimeters(cm) from at least one bag wall.
 7. The goods transport system accordingto claim 1, wherein said biodegradable paper layer consists of Kraftpaper.
 8. The goods transport system according to claim 1, wherein saidwall comprises at least one material selected from a group consistingof: a non-woven material; a textile material; and a film offoamed/porous thermoplastic.
 9. The goods transport system according toclaim 1, wherein said wall comprises at least one material selected froma group consisting of: a film of thermoplastic; and a film of foamedand/or porous rubber.
 10. The goods transport system according to claim1, wherein said delivery vehicle is configured to transport the closedpacked bag in an uncontrolled air atmosphere environment.
 11. The goodstransport system according to claim 1, wherein said delivery vehicle isconfigured to transport the closed packed bag in the air atmosphereenvironment which is not actively cooled by a cooling or freezingdevice.
 12. The method according to claim 1, wherein said deliveryvehicle is configured to transport the closed packed bag in the airatmosphere environment which is not actively cooled by a cooling orfreezing device.
 13. A method of delivering chilled goods in a sealablebag, comprising the steps of: providing, at a storage facility, chilledgoods having an initial goods temperature, chilled goods comprising atleast one selected from the group consisting of: (i) chilled non-frozengoods having the initial goods temperature of equal to or less than 8degrees Centigrade, and (ii) frozen goods having the initial goodstemperature of equal to or less than 0 degrees Centigrade; receiving anorder for an amount of said chilled goods; providing a closable baghaving a wall configured to enclose an interior storage space fortransporting said chilled goods the wall comprising: a) a biodegradablepaper layer having a thermal conductivity of less than 0.2 W/(K*m) and atensile strength exceeding 0.133 Newton/square millimeter (mm²), thebiodegradable paper layer being shaped and configured to form theinterior storage space to a volume between ten metric liters and 100metric liters; and b) a substantially water vapor impermeable membranebonded to at least one side of said biodegradable paper layer; and c) aclosable opening such that the bag has a closed state in which the bagsubstantially seals the interior storage space from the environment; themethod further comprising the steps of: packing, at the storagefacility, at least some of the ordered amount of chilled goods into theinterior storage space of the closeable bag; closing the closableopening so as to provide a closed packed bag such that the closedopening substantially seals said packed amount of chilled goods in theinterior storage space from the environment; transporting, in a deliveryvehicle, the closed packed bag in an air atmosphere environment havingan air temperature of equal to or greater than ten degrees Centigrade;and maintaining, during the transporting, the closed packed bag in aclosed packed state so as to minimize or prevent entry of air humidityfrom the air atmosphere environment into the interior storage space soas to minimize or prevent an occurrence of condensation on said packedamount of chilled goods such that condensation process heating isminimized or prevented in the interior storage space.
 14. The methodaccording to claim 13, wherein said substantially water vaporimpermeable membrane comprises a biodegradable material.
 15. The methodaccording to claim 13, wherein the wall consists of one or morebiodegradable materials and the biodegradable paper layer comprises aKraft paper layer.
 16. The method according to claim 13, wherein thebag, when in use for transporting chilled and/or frozen goods, isconfigured to enable a human to carry the bag such that a center ofgravity of the closed packed bag is less than 10 centimeters (cm) fromat least one bag wall.
 17. The method according to claim 13, whereinsaid biodegradable paper layer comprises Kraft paper.
 18. The methodaccording to claim 13, wherein said wall comprises at least one materialselected from a group consisting of: a non-woven material; a textilematerial; and a film of foamed/porous thermoplastic.
 19. The methodaccording to claim 13, wherein said wall material comprises at least oneselected from a group consisting of: a film of thermoplastic; and a filmof foamed and/or porous rubber.
 20. The method according to claim 13,wherein said delivery vehicle is configured to transport the closedpacked bag in an uncontrolled air atmosphere environment.